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CN 11-5639/O4
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 Remote excitation and remote detection of a single quantum dot using propagating surface plasmons on silver nanowire Li Qiang, Wei Hong, Xu Hong-Xing Chin. Phys. B 2014, 23 (9): 097302
 High quality sub-monolayer, monolayer, and bilayer graphene on Ru(0001) Xu Wen-Yan, Huang Li, Que Yan-De, Li En, Zhang Hai-Gang, Lin Xiao, Wang Ye-Liang, Du Shi-Xuan, Gao Hong-Jun Chin. Phys. B 2014, 23 (9): 098101
 Effect of disorder on hyperbolic metamaterials Lü Cheng, Li Wei, Jiang Xun-Ya, Cao Jun-Cheng Chin. Phys. B 2014, 23 (9): 097802
 Current Issue In Press Accepted Earlier Issues Top Downloaded SCI Top Cited
 Chin. Phys. B--2014, Vol.23, No.9
RAPID COMMUNICATION
Yang He, Shen Cheng-Min, Tian Yuan, Wang Gao-Qiang, Lin Shao-Xiong, Zhang Yi, Gu Chang-Zhi, Li Jun-Jie, Gao Hong-Jun
Chin. Phys. B, 2014, 23 (9): 096803 doi: 10.1088/1674-1056/23/9/096803
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Large-area monolayer graphene samples grown on polycrystalline copper foil by thermal chemical vapor deposition with differing CH4 flux and growth time are investigated by Raman spectra, scanning electron microscopy, atomic force microscopy, and scanning tunneling microscopy. The defects, number of layers, and quality of graphene are shown to be controllable through tuning the reaction conditions: ideally to 2-3 sccm CH4 for 30 minutes.
Cui Li-Min, Li Jie, Wang Jia, Zhang Yu, Zheng Dong-Ning
Chin. Phys. B, 2014, 23 (9): 097103 doi: 10.1088/1674-1056/23/9/097103
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Micro-patterning is considered to be a promising way to analyze phase-separated manganites. We investigate resistance in micro-patterned La0.325Pr0.3Ca0.375MnO3 wires with width of 10 μm, which is comparable to the phase separation scale in this material. A reentrant of insulating state at the metal-insulator temperature Tp is observed and a giant resistance change of over 90% driven by electric field is achieved by suppression of this insulating state. This resistance change is mostly reversible. The I-V characteristics are measured in order to analyze the origin of the giant electroresistance and two possible explanations are proposed.
Li Qiang, Wei Hong, Xu Hong-Xing
Chin. Phys. B, 2014, 23 (9): 097302 doi: 10.1088/1674-1056/23/9/097302
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Using propagating surface plasmons (SPs) on a silver nanowire (NW), we demonstrate that a focused laser light at the end of the silver NW can excite a single quantum dot (QD) microns away from the excitation spot. The QD-NW interaction allows the excited QD convert part of its energy into propagating SPs, which then can be detected at remote sites. Simultaneous multi-QD remote excitation and remote detection can also be realized. Furthermore, the tight confinement of the propagating SPs around the NW surface enables the selective excitation of QDs very close in space, which cannot be realized under the conventional excitation condition. This remote excitation and remote detection approach may find applications in optical imaging and the sensing of chemical and biological systems.

Xu Wen-Yan, Huang Li, Que Yan-De, Li En, Zhang Hai-Gang, Lin Xiao, Wang Ye-Liang, Du Shi-Xuan, Gao Hong-Jun
Chin. Phys. B, 2014, 23 (9): 098101 doi: 10.1088/1674-1056/23/9/098101
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High quality sub-monolayer, monolayer, and bilayer graphene were grown on Ru(0001). For the sub-monolayer graphene, the size of graphene islands with zigzag edges can be controlled by the dose of ethylene exposure. By increasing the dose of ethylene to 100 Langmuir at a high substrate temperature (800℃), high quality single-crystalline monolayer graphene was synthesized on Ru(0001). High quality bilayer graphene was formed by further increasing the dose of ethylene while reducing the cooling rate to 5℃/min. Raman spectroscopy revealed the vibrational states of graphene, G and 2D peaks appeared only in the bilayer graphene, which demonstrates that it behaves as the intrinsic graphene. Our present work affords methods to produce high quality sub-monolayer, monolayer, and bilayer graphene, both for basic research and applications.

GENERAL
Wang Zhi-Gang, Gao Rui-Mei, Fan Xiao-Ming, Han Qi-Xing
Chin. Phys. B, 2014, 23 (9): 090201 doi: 10.1088/1674-1056/23/9/090201
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We discuss in this paper a deterministic multi-group MSIR epidemic model with a vaccination rate, the basic reproduction number R0, a key parameter in epidemiology, is a threshold which determines the persistence or extinction of the disease. By using Lyapunov function techniques, we show if R0 is greater than 1 and the deterministic model obeys some conditions, then the disease will prevail, the infective persists and the endemic state is asymptotically stable in a feasible region. If R0 is less than or equal to 1, then the infective disappear so the disease dies out. In addition, stochastic noises around the endemic equilibrium will be added to the deterministic MSIR model in order that the deterministic model is extended to a system of stochastic ordinary differential equations. In the stochastic version, we carry out a detailed analysis on the asymptotic behavior of the stochastic model. In addition, regarding the value of R0, when the stochastic system obeys some conditions and R0 is greater than 1, we deduce the stochastic system is stochastically asymptotically stable. Finally, the deterministic and stochastic model dynamics are illustrated through computer simulations.
Wang Yan-Chong, Li Xiao-Lin
Chin. Phys. B, 2014, 23 (9): 090202 doi: 10.1088/1674-1056/23/9/090202
Full Text: [PDF 606 KB] (51)
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Based on the moving least square (MLS) approximations and the boundary integral equations (BIEs), a meshless algorithm is presented in this paper for elliptic Signorini problems. In the algorithm, a projection operator is used to tackle the nonlinear boundary inequality conditions. The Signorini problem is then reformulated as BIEs and the unknown boundary variables are approximated by the MLS approximations. Accordingly, only a nodal data structure on the boundary of a domain is required. The convergence of the algorithm is proven. Numerical examples are given to show the high convergence rate and high computational efficiency of the presented algorithm.
H. M. El-Hawary, Mostafa A. A. Mahmoud, Reda G. Abdel-Rahman, Abeer S. Elfeshawey
Chin. Phys. B, 2014, 23 (9): 090203 doi: 10.1088/1674-1056/23/9/090203
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The theoretic transformation group approach is applied to address the problem of unsteady boundary layer flow of a non-Newtonian fluid near a stagnation point with variable viscosity and thermal conductivity. The application of a two-parameter group method reduces the number of independent variables by two, and consequently the governing partial differential equations with the boundary conditions transformed into a system of ordinary differential equations with the appropriate corresponding conditions. Two systems of ordinary differential equations have been solved numerically using a fourth-order Runge-Kutta algorithm with a shooting technique. The effects of various parameters governing the problem are investigated.
Zhou Xian-Chun, Shi Lan-Fang, Han Xiang-Lin, Mo Jia-Qi
Chin. Phys. B, 2014, 23 (9): 090204 doi: 10.1088/1674-1056/23/9/090204
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Using the trial equation method, a Broer-Kau-Kupershmidt (BKK) mechanism physical model is obtained, and the exact and approximate solitary traveling wave solutions are found. As an example, it is pointed out that the solitary traveling wave approximate solutions have better accurate degree by using the homotopic mapping theory.
L. B. Castro, A. S. de Castro
Chin. Phys. B, 2014, 23 (9): 090301 doi: 10.1088/1674-1056/23/9/090301
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The concepts of spin and pseudospin symmetries has been used as mere rhetorics to decorate the pseudoscalar potential [Chin. Phys. B 22 090301 (2013)]. It is also pointed out that a more complete analysis of the bound states of fermions in a pseudoscalar Cornell potential has already been published elsewhere.
Da Cheng, Chen Qian-Fan, Fan Hong-Yi
Chin. Phys. B, 2014, 23 (9): 090302 doi: 10.1088/1674-1056/23/9/090302
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We consider the quantum mechanical SU(2) transformation e2λ JzJ±e-2λ Jz=e±2λJ± as if the meaning of squeezing with e±2λ being squeezing parameter. By studying SU(2) operators (J±,Jz) from the point of view of squeezing we find that (J±,Jz) can also be realized in terms of 3-mode bosonic operators. Employing this realization, we find the natural representation (the eigenvectors of J+ or J-) of the 3-mode squeezing operator e2λ Jz. The idea of considering quantum SU(2) transformation as if squeezing is liable for us to obtain the new bosonic operator realization of SU(2) and new squeezing operators.
Seyed Mahmoud Ashrafi, Mohammad Reza Bazrafkan
Chin. Phys. B, 2014, 23 (9): 090303 doi: 10.1088/1674-1056/23/9/090303
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By introducing thermo-entangled state representation |η>, which can map master equations of density operator in quantum statistics as state-vector evolution equations, and using “dissipative interaction picture” we solve the master equation of Jaynes-Cummings model with cavity damping. In addition we derive the Wigner function for density operator when the atom is initially in the up state |↑> and the cavity mode is in coherent state.
A. Suparmi, C. Cari, U. A. Deta
Chin. Phys. B, 2014, 23 (9): 090304 doi: 10.1088/1674-1056/23/9/090304
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The bound state solutions of Dirac equations for a trigonometric Scarf potential with a new tensor potential under spin and pseudospin symmetry limits are investigated using Romanovski polynomials. The proposed new tensor potential is inspired by superpotential form in supersymmetric (SUSY) quantum mechanics. The Dirac equations with trigonometric Scarf potential coupled by a new tensor potential for the pseudospin and spin symmetries reduce to Schrödinger-type equations with a shape invariant potential since the proposed new tensor potential is similar to the superpotential of trigonometric Scarf potential. The relativistic wave functions are exactly obtained in terms of Romanovski polynomials and the relativistic energy equations are also exactly obtained in the approximation scheme of centrifugal term. The new tensor potential removes the degeneracies both for pseudospin and spin symmetries.
Zhong Wei, Ma Jian, Liu Jing, Wang Xiao-Guang
Chin. Phys. B, 2014, 23 (9): 090305 doi: 10.1088/1674-1056/23/9/090305
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We investigate a measure of distinguishability defined by the quantum Chernoff bound, which naturally induces the quantum Chernoff metric over a manifold of quantum states. Based on a quantum statistical model, we alternatively derive this metric by means of perturbation expansion. Moreover, we show that the quantum Chernoff metric coincides with the infinitesimal form of the quantum Hellinger distance, and reduces to the variant version of the quantum Fisher information for the single-parameter case. We also give the exact form of the quantum Chernoff metric for a qubit system containing a single parameter.
Mazhar Ali
Chin. Phys. B, 2014, 23 (9): 090306 doi: 10.1088/1674-1056/23/9/090306
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In a recent paper (2012 Chin. Phys. B 21 084205), the authors studied the problem of distillability sudden death. We find that their equation of motion is incorrect and consequently the rest of the paper is wrong. Even apart from starting with a wrong equation of motion, their description of the phenomenon of distillability sudden death is totally misleading and needs to be rectified. To this aim, we show that certain initially prepared free-entangled states become bound-entangled in a finite time under thermal reservoirs. Moreover, in contrast with zero-temperature reservoirs, simple local unitary transformations cannot completely avoid distillability sudden death.
Chang Li-Wei, Zheng Shi-Hui, Gu Li-Ze, Xiao Da, Yang Yi-Xian
Chin. Phys. B, 2014, 23 (9): 090307 doi: 10.1088/1674-1056/23/9/090307
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We firstly present a novel scheme for deterministic joint remote state preparation of an arbitrary five-qubit Brown state using four Greenberg-Horme-Zeilinger (GHZ) entangled states as the quantum channel. The success probability of this scheme is up to 1, which is superior to the existing ones. Moreover, the scheme is extended to the generalized case where three-qubit and four-qubit non-maximally entangled states are taken as the quantum channel. We simultaneously employ two common methods to reconstruct the desired state. By comparing these two methods, we draw a conclusion that the first is superior to the second-optimal positive operator-valued measure only taking into account the number of auxiliary particles and the success probability.
Ma Song-Ya, Luo Ming-Xing
Chin. Phys. B, 2014, 23 (9): 090308 doi: 10.1088/1674-1056/23/9/090308
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The application of χ state are investigated in remote state preparation (RSP). By constructing useful measurement bases with the aid of Hurwitz matrix equation, we propose several RSP schemes of arbitrary two-and three-qubit states via the χ state as the entangled resource. It is shown that the original state can be successfully prepared with the probability 100% and 50% for real coefficients and complex coefficients, respectively. For the latter case, the special ensembles with unit success probability are discussed by the permutation group. It is worth mentioning that the novel measurement bases have no restrictions on the coefficients of the prepared state, which means that the proposed schemes are more applicable.
Chang Ho Hong, Jino Heo, Jong In Lim, Hyung Jin Yang
Chin. Phys. B, 2014, 23 (9): 090309 doi: 10.1088/1674-1056/23/9/090309
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We propose a quantum secure direct communication protocol with entanglement swapping and hyperentanglement. Any two users, Alice and Bob, can communicate with each other in a quantum network, even though there is no direct quantum channel between them. The trust center, Trent, who provides a quantum channel to link them by performing entanglement swapping, cannot eavesdrop on their communication. This protocol provides a high channel capacity because it uses hyperentanglement, which can be generated using a beta barium borate crystal.
Zhang Chun-Mei, Li Mo, Huang Jing-Zheng, Patcharapong Treeviriyanupab, Li Hong-Wei, Li Fang-Yi, Wang Chuan, Yin Zhen-Qiang, Chen Wei, Keattisak Sripimanwat, Han Zhen-Fu
Chin. Phys. B, 2014, 23 (9): 090310 doi: 10.1088/1674-1056/23/9/090310
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Post-processing is indispensable in quantum key distribution (QKD), which is aimed at sharing secret keys between two distant parties. It mainly consists of key reconciliation and privacy amplification, which is used for sharing the same keys and for distilling unconditional secret keys. In this paper, we focus on speeding up the privacy amplification process by choosing a simple multiplicative universal class of hash functions. By constructing an optimal multiplication algorithm based on four basic multiplication algorithms, we give a fast software implementation of length-adaptive privacy amplification. “Length-adaptive” indicates that the implementation of privacy amplification automatically adapts to different lengths of input blocks. When the lengths of the input blocks are 1 Mbit and 10 Mbit, the speed of privacy amplification can be as fast as 14.86 Mbps and 10.88 Mbps, respectively. Thus, it is practical for GHz or even higher repetition frequency QKD systems.
Rahmut Arzigul, Peng Sheng-Qiang, Ma Xiao-Dong
Chin. Phys. B, 2014, 23 (9): 090311 doi: 10.1088/1674-1056/23/9/090311
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The damping and frequency-shift in Landau mechanism of a quadrupole mode in a disc-shaped rubidium Bose-Einstein condensate are investigated by using the Hartree-Fock-Bogoliubov approximation. The practical relaxations of the elementary excitations and the orthometric relation among them are taken into account to obtain advisable calculation formula for damping as well as frequency-shift. The first approximation of Gaussian distribution function is employed for the ground-state wavefunction to suitably eliminate the divergence of the analytic three-mode coupling matrix elements. According to these methods, both Landau damping rate and frequency-shift of the quadrupole mode are analytically calculated. In addition, all the theoretical results agree with the experimental ones.
Sankar Hajra
Chin. Phys. B, 2014, 23 (9): 090401 doi: 10.1088/1674-1056/23/9/090401
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We point out an error in Eq. (19) in our original paper [Chin. Phys. B 23 040402 (2014)] and present the correct equation.
Hao Meng-Li, Xu Wei, Gu Xu-Dong, Qi Lu-Yuan
Chin. Phys. B, 2014, 23 (9): 090501 doi: 10.1088/1674-1056/23/9/090501
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The combined effects of Lévy noise and immune delay on the extinction behavior in a tumor growth model are explored. The extinction probability of tumor with certain density is measured by exit probability. The expression of the exit probability is obtained using the Taylor expansion and the infinitesimal generator theory. Based on numerical calculations, it is found that the immune delay facilitates tumor extinction when the stability index α<1, but inhibits tumor extinction when the stability index α>1. Moreover, larger stability index and smaller noise intensity are in favor of the extinction for tumor with low density. While for tumor with high density, the stability index and the noise intensity should be reduced to promote tumor extinction.
Sun Chang-Chun
Chin. Phys. B, 2014, 23 (9): 090502 doi: 10.1088/1674-1056/23/9/090502
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A new three-dimensional (3D) continuous autonomous system with one parameter and three quadratic terms is presented firstly in this paper. Countless embedded trumpet-shaped chaotic attractors in two opposite directions are generated from the system as time goes on. The basic dynamical behaviors of the strange chaotic system are investigated. Another more complex 3D system with the same capability of generating countless embedded trumpet-shaped chaotic attractors is also put forward.
Yan Sen-Lin
Chin. Phys. B, 2014, 23 (9): 090503 doi: 10.1088/1674-1056/23/9/090503
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The parallel synchronization of three chaotic lasers is used to emulate optoelectronic logic NOR and XNOR gates via modulating the light and the current. We deduce a logical computational equation that governs the chaotic synchronization, logical input, and logical output. We construct fundamental gates based on the three chaotic lasers and define the computational principle depending on the parallel synchronization. The logic gate can be implemented by appropriately synchronizing two chaotic lasers. The system shows practicability and flexibility because it can emulate synchronously an XNOR gate, two NOR gates, and so on. The synchronization can still be deteceted when mismatches exist with a certain range.
Deng Xiao, Li Tong-Bao, Lei Li-Hua, Ma Yan, Ma Rui, Weng Jun-Jing, Li Yuan
Chin. Phys. B, 2014, 23 (9): 090601 doi: 10.1088/1674-1056/23/9/090601
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Atom lithography with chromium can be utilized to fabricate a pitch standard,which is directly traceable to the wavelength of the laser standing waves. The result of a calibrated commercial AFM measurement demonstrates that the pitch standard is (212.8± 0.1) nm with a peak-to-valley-height (PTVH) better than 20 nm. The measurement results show the high period accuracy of traceability with the standing laser wavelength (λ/2=212.78 nm). The Cr nano-grating covers a 1000 μm×500 μm area, with a PTVH better than 10 nm. The feature width broadening of the Cr nanostructure has been experimentally observed along the direction of the standing waves. The PTVH along the Gaussian laser direction is similar to a Gaussian distribution. Highly uniform periodic nanostructures with a big area at the millimeter scale, and the surface growth uniformity of the Cr nano-grating, show its great potential in the application of a traceable pitch standard at trans-scales.
Chen Xi-Hao, Wu Wei, Meng Shao-Ying, Li Ming-Fei
Chin. Phys. B, 2014, 23 (9): 090701 doi: 10.1088/1674-1056/23/9/090701
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Third-order Hanbrury Brown-Twiss and double-slit interference experiments with a pseudo-thermal light are performed by recording intensities in single, double and triple optical paths, respectively. The experimental results verifies the theoretical prediction that the indispensable condition for achieving a interference pattern or ghost image in Nth-order intensity correlation measurements is the synchronous detection of the same light field by each reference detector, no matter the intensities recorded in one, or two, or N optical paths. It is shown that, when the reference detectors are scanned in the opposite directions, the visibility and resolution of the third-order spatial correlation function of thermal light is much better than that scanned in the same direction, but it is no use for obtaining the Nth-order interference pattern or ghost image in the thermal Nth-order interference or ghost imaging.
Peng Chao, Hu Zhi-Yuan, Ning Bing-Xu, Huang Hui-Xiang, Fan Shuang, Zhang Zheng-Xuan, Bi Da-Wei, En Yun-Fei
Chin. Phys. B, 2014, 23 (9): 090702 doi: 10.1088/1674-1056/23/9/090702
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We investigate the effects of 60Co γ-ray irradiation on the 130 nm partially-depleted silicon-on-isolator (PDSOI) input/output (I/O) n-MOSFETs. A shallow trench isolation (STI) parasitic transistor is responsible for the observed hump in the back-gate transfer characteristic curve. The STI parasitic transistor, in which the trench oxide acts as the gate oxide, is sensitive to the radiation, and it introduces a new way to characterize the total ionizing dose (TID) responses in the STI oxide. A radiation enhanced drain induced barrier lower (DIBL) effect is observed in the STI parasitic transistor. It is manifested as the drain bias dependence of the radiation-induced off-state leakage and the increase of the DIBL parameter in the STI parasitic transistor after irradiation. Increasing the doping concentration in the whole body region or just near the STI sidewall can increase the threshold voltage of the STI parasitic transistor, and further reduce the radiation-induced off-state leakage. Moreover, we find that the radiation-induced trapped charge in the buried oxide leads to an obvious front-gate threshold voltage shift through the coupling effect. The high doping concentration in the body can effectively suppress the radiation-induced coupling effect.
ATOMIC AND MOLECULAR PHYSICS
Zhang Heng, Tian Duan-Liang, Yan Shi-Ying
Chin. Phys. B, 2014, 23 (9): 093101 doi: 10.1088/1674-1056/23/9/093101
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The density functional method (B3P86/6-311G) is used for calculating the possible structures of SeC, SeO, and SeCO molecules. The result shows that the ground state of the SeC molecule is 1Σ, the equilibrium nuclear distance is RSeC=0.1699 nm, and the dissociation energy is De=8.7246 eV. The ground state of the SeO molecule is 3Σ, with equilibrium nuclear distance RSeO=0.1707 nm and dissociation energy De=7.0917 eV. There are two structures for the ground state of the SeCO molecule: Se=C=O and Se=O=C. The linear Se=C=O is 1Σ. Its equilibrium nuclear distances and dissociation energy are RSeC=0.1715 nm, RCO=0.1176 nm and 18.8492 eV, respectively. The other structure Se=O=C is 1Σ. Its equilibrium nuclear distances and dissociation energy are RCO=0.1168 nm, RSeO=0.1963 nm and 15.5275 eV, respectively. The possible dissociative limit of the SeCO molecule is analyzed. The potential energy function for the SeCO molecule has been obtained from the many-body expansion theory. The contour of the potential energy curve describes the structure characters of the SeCO molecule. Furthermore, contours of the molecular stretching vibration based on this potential energy function are discussed.
Liu Li, Yang Ting, Dong Jian-Ji
Chin. Phys. B, 2014, 23 (9): 093201 doi: 10.1088/1674-1056/23/9/093201
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Utilizing a high-Q microdisk resonator (MDR) on a single silicon-on-insulator (SOI) chip, a compact microwave photonic filter (MPF) with a continuously tunable central frequency is proposed and experimentally demonstrated. Assisted by the optical single side-band (OSSB) modulation, the optical frequency response of the MDR is mapped to the microwave frequency response to form an MPF with a continuously tunable central frequency and a narrow 3-dB bandwidth. In the experiment, using an MDR with a compact size of 20×20 μ2 and a high Q factor of 1.07×105, we obtain a compact MPF with a high rejection ratio of about 40 dB, a 3-dB bandwidth of about 2 GHz, and a frequency tuning range larger than 12 GHz. Our approach may allow the implementation of very compact, low-cost, low-consumption, and integrated notch MPF in a silicon chip.
Dong Hui-Jie, Huang Ke-Shu, Li Chang-Yong, Zhao Jian-Ming, Zhang Lin-Jie, Jia Suo-Tang
Chin. Phys. B, 2014, 23 (9): 093202 doi: 10.1088/1674-1056/23/9/093202
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Recently, the diverse properties of Rydberg atoms, which probably arise from its large electric dipole moment (EDM), have been explored. In this paper, we report electric dipole moments along with Stark energies and charge densities of lithium Rydberg states in the presence of electric fields, calculated by matrix diagonalization. Huge electric dipole moments are discovered. In order to check the validity of the EDMs, we also use these electric dipole moments to calculate the Stark energies by numerical integration. The results agree with those calculated by matrix diagonalization.
Sunny Aggarwal
Chin. Phys. B, 2014, 23 (9): 093203 doi: 10.1088/1674-1056/23/9/093203
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Energy levels, wavefunction compositions and lifetimes have been computed for all levels of 1s22s22p5, 1s22s2p6, 1s22s22p43s, 1s22s22p43p, and 1s22s22p43d configurations in highly charged F-like tungsten ion. The multiconfigurational Dirac-Fock method (MCDF) is adopted to generate the wavefunctions. We have also presented the transition wavelengths, oscillator strengths, transition probabilities, and line strengths for the electric dipole (E1) and magnetic quadrupole (M2) transition from the 1s22s22p5 ground configuration. We have performed parallel calculations with the flexible atomic code (FAC) for comparing the atomic data. The reliability of present data is assessed by comparison with other theoretical and experimental data available in the literature. Good agreement is found between our results and those obtained using different approaches confirm the quality of our results. Additionally, we have predicted some new atomic data for F-like W that were not available so far and may be important for plasma diagnostic analysis in fusion plasma.
Zhou Hai-Tao, Wang Dan, Guo Miao-Jun, Gao Jiang-Rui, Zhang Jun-Xiang
Chin. Phys. B, 2014, 23 (9): 093204 doi: 10.1088/1674-1056/23/9/093204
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The controllable optical mirror is experimentally accomplished in a Λ-type three-level atomic system coupled with standing wave. It is shown that the reflection of probe light results from electromagnetically-induced-transparency-based four-wave mixing, therefore the reflection efficiency is highly dependent on the angle for phase matching condition between the probe and coupling fields. The measured reflection spectra show good agreement with dispersion compensation theory.
Qin Yue-Fei, Guo Fu-Ming, Li Su-Yu, Yang Yu-Jun, Chen Gao
Chin. Phys. B, 2014, 23 (9): 093205 doi: 10.1088/1674-1056/23/9/093205
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We theoretically investigate high-order harmonic and attosecond pulse generation from helium atom in a three-color laser field, which is synthesized by 10 fs/800 nm Ti-sapphire laser and a two-color field consisting of 30 fs/532 nm and 30 fs/1330 nm pulses. Compared with harmonic spectrum generated by a monochromatic field, the harmonics generated from the synthesized three-color field show a supercontinuum spectrum with a bandwidth of 235 eV, ranging from the 154th to the 306th order harmonic. This phenomenon can be attributed to the fact that the ionization of atoms as well as motion of ionized electron can be effectively controlled in the three-color field. Therefore, an isolated 46-as pulse can be generated by superposing supercontinuum from the 160th to the 210th order harmonics.
Lu Hai-Chang, Zhai Yue-Yang, Pan Rui-Zhi, Yang Shi-Feng
Chin. Phys. B, 2014, 23 (9): 093701 doi: 10.1088/1674-1056/23/9/093701
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Based on the experimental device which is a non-uniform magnetic field to trap an atom, we show how to obtain a certain velocity of a Bose gas by controlling the magnetic coils. By comparing the relationship of the different current supply and delay time versus the ultimate velocity of the atom, we theoretically predict the method of accelerating the gases to an expected velocity. This method is of great convenience and significance for the applications in cold atom physics and precision measurements.
Yang Yu-Na, Liu Hao, He Yue-Hong, Yang Zhi-Hui, Wang Man, Chen Yi-He, She Lei, Li Jiao-Mei
Chin. Phys. B, 2014, 23 (9): 093702 doi: 10.1088/1674-1056/23/9/093702
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The influences of different buffer gas, neon and helium, on 199Hg+ clock transition are compared in trapped 199Hg+linear trap. By the technique of time domain's Ramsey separated oscillatory fields, the buffer gas pressure frequency shifts of 199Hg+ clock transition are measured to be (df/d PNe)(1/f)=1.8×10-8 Torr-1 for neon and (df/d PHe)(1/f)=9.1×10-8 Torr-1 for helium. Meanwhile, the line-width of 199Hg+ clock transition spectrum with the buffer gas neon is narrower than that with helium at the same pressure. These experimental results show that neon is a more suitable buffer gas than helium in 199Hg+ ions microwave frequency standards because of the 199Hg+ clock transition is less sensitive to neon variations and the better cooling effect of neon. The optimum operating pressure for neon is found to be about 1.0×10-5 Torr in our linear ion trap system.
ELECTROMAGNETISM, OPTICS, ACOUSTICS, HEAT TRANSFER, CLASSICAL MECHANICS, AND FLUID DYNAMICS
Sun Bin, Hong Jin, Sun Xiao-Bing
Chin. Phys. B, 2014, 23 (9): 094201 doi: 10.1088/1674-1056/23/9/094201
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The atmospheric scattering optical transfer function (OTF) is solved by applying the multi-coupled single scattering (MCSS) method to the three-dimensional radiative transfer equation (RTE) under the periodic ground condition. This approach is a direct hit to the atmospheric scattering OTF using the same original context of modulation transfer function (MTF) measurement, i.e., images of sinusoidal grating at different spatial frequencies. Both the amplitude and phase shift of the OTF at various zenith and azimuth angles can be obtained at an arbitrary spatial frequency.
Wang Li-Guo, Wu Zhen-Sen, Wang Ming-Jun, Cao Yun-Hua, Zhang Geng
Chin. Phys. B, 2014, 23 (9): 094202 doi: 10.1088/1674-1056/23/9/094202
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The second-order and fourth-order statistical moments of the speckle field from a diffuse target in atmospheric turbulence are studied which have great influence on the performance of lidar systems. By expanding a general rotationally symmetric beam as a sum of Gaussian-Schell model (GSM) beams, the mean intensity of the general beam propagating over a distance in an atmospheric turbulence is formulated. Expressions for the degree of coherence (DOC) and the normalized intensity variance of the scattered field of a general beam from a rough surface in turbulence are derived based on the extended Huygens-Fresnel principle. The general expressions reduce to the well-known forms for a GSM beam. Another example for the general beam used in this paper is the collimated flat-topped beam. The results of both kinds of beams show that the intensity profile on the target plane is a key factor affecting the statistical characteristics of the speckle field. A larger beam spot on the target plane induces a smaller coherence length and a smaller normalized intensity variance of the received field. As turbulence gets stronger, the coherence length becomes smaller, and the normalized intensity variance firstly increases and declines to unity finally.
Lin Hai, Xu Di, M. F. Pantoja, S. G. Garcia, Yang He-Lin
Chin. Phys. B, 2014, 23 (9): 094203 doi: 10.1088/1674-1056/23/9/094203
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Graphene has been considered as a promising material which may find applications in the THz science. In this work, we numerically investigate tunable photonic crystals in the THz range based on stacked graphene/dielelctric layers, a complex pole-residue pair model is used to find the effective permittivity of graphene, which could be easily incorporated into the finite-difference time domain (FDTD) algorithm. Two different schemes of photonic crystal used for extending the bandgap have been simulated through this FDTD technique.
Ma Yue, Dong Kun, Tian Gui-Hua
Chin. Phys. B, 2014, 23 (9): 094204 doi: 10.1088/1674-1056/23/9/094204
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We investigate the dynamics of two qubits coupled with a quantum oscillator by using the adiabatic approximation method. We take account of the interaction between the qubits and show how the entanglement is affected by the interaction parameter. The most interesting result is that we can prolong the entanglement time or improve the entanglement degree by using an appropriate interaction parameter. As the generation and preservation of entanglement of qubits are crucial for quantum information processing, our research will be useful.
Wang Wei-Sheng, Zhang Ming-Liang, Chen Zhi-De
Chin. Phys. B, 2014, 23 (9): 094205 doi: 10.1088/1674-1056/23/9/094205
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We present a systematic analysis on the role of the quantum dot (QD) shape in the influence of the phonon bath on the dynamics of a QD cavity QED system. The spectral functions of the phonon bath in three representative QD shapes: spherical, ellipsoidal, and disk, are calculated from the carrier wave functions subjected to the confinement potential provided by the corresponding shape. The obtained spectral functions are used to calculate three main effects brought by the phonon bath, i.e., the coupling renormalization, the off-resonance assisted feeding rate and the pure dephasing rate. It is found that the spectral function of a disk QD has the widest distribution, hence the phonon bath in a disk QD can lead to the smallest renormalization factor, the largest dephasing rate in the short time domains(≤ 2 ps), and the off-resonance assisted feeding can support the widest detuning. Except for the pure dephasing rate in the long time domains, all the influences brought by the phonon bath show serious shape dependence.
Yu Zhen-Hua, Tian Jin-Rong, Song Yan-Rong
Chin. Phys. B, 2014, 23 (9): 094206 doi: 10.1088/1674-1056/23/9/094206
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We demonstrate the first use of single layer graphene for compressing self-Q-switching pulses in semiconductor disk lasers. The gain region of the semiconductor disk laser used InGaAs quantum wells with a central wavelength of 1030 nm. Due to self saturable absorption of the quantum wells, the disk laser emitted at the self-Q-switching state with a pulse width of 13 μs. By introducing the single layer graphene as a saturable absorber into the V-shaped laser cavity, the pulse width of the self-pulse was compressed to 2 μs with a lower pump power of 300 mW. As the pump power was increased, multiple pulses with the pulse width of 1.8 μs appeared. The compression factor was about 7.2.
Wang Wen-Liang, Huang Liang-Jin, Leng Jin-Yong, Guo Shao-Feng, Jiang Zong-Fu
Chin. Phys. B, 2014, 23 (9): 094207 doi: 10.1088/1674-1056/23/9/094207
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Based on rate equations, a theoretical model of a fiber oscillator with a multimode gain fiber was built. We studied the effect of the rare earth doping profile in the core on the output characteristics of the multimode fiber oscillator. The results indicated that a pure fundamental mode can be obtained by partly doping the core of the large mode area (LMA) ytterbium doped fiber (YDF) in the fiber laser. Furthermore, a sole specific high-order mode can also be implemented by tailoring the rare earth doping profile according to the simulations. The mode coupling effect was also taken into account in the model. In spite of the mode coupling effect, the specific mode was able to dominate in the output of the fiber laser by utilizing the designed LMA YDF.
Wang Peng-Yuan, Xie Shi-Yong, Bo Yong, Wang Bao-Shan, Zuo Jun-Wei, Wang Zhi-Chao, Shen Yu, Zhang Feng-Feng, Wei Kai, Jin Kai, Xu Yi-Ting, Xu Jia-Lin, Peng Qin-Jun, Zhang Jing-Yuan, Lei Wen-Qiang, Cui Da-Fu, Zhang Yu-Dong, Xu Zu-Yan
Chin. Phys. B, 2014, 23 (9): 094208 doi: 10.1088/1674-1056/23/9/094208
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We demonstrate an all-solid quasi-continuous-wave (QCW) narrow-band source tunable to sodium D2a line at 589.159 nm. The source is based on sum-frequency mixing between lasers at 1064 nm and 1319 nm in a LBO crystal. The 1064 nm and 1319 nm lasers are produced from two diode side-pumped Nd:YAG master oscillator power amplifier (MOPA) laser systems, respectively. A 33 W output of 589 nm laser is obtained with beam quality factor M2=1.25, frequency stability better than ± 0.2 GHz and linewidth less than 0.44 GHz. A prototype 589 nm laser system is assembled, and a sodium laser guided star has been successfully observed in the field test.
Han Yan-Hua, Li Yan, Zhao Xiu-Li, Qu Shi-Liang
Chin. Phys. B, 2014, 23 (9): 094209 doi: 10.1088/1674-1056/23/9/094209
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The large-scale uniform self-organized ripples are fabricated on fluorine-doped tin oxide (FTO) coated glass by femtosecond laser. They can be smoothly linked in a horizontal line with the moving of XYZ stage by setting its velocity and the repetition rate of the laser. The ripple-to-ripple linking can also be realized through line-by-line scanning on a vertical level. The mechanism analysis shows that the seeding effect plays a key role in the linking of ripples.
Xu Jin, Xie Pin-Hua, Si Fu-Qi, Li Ang, Wu Feng-Cheng, Wang Yang, Liu Jian-Guo, Liu Wen-Qing, Andreas Hartl, Chan Ka Lok
Chin. Phys. B, 2014, 23 (9): 094210 doi: 10.1088/1674-1056/23/9/094210
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An airborne multi-axis differential optical absorption spectroscopic (AMAX-DOAS) instrument was developed and applied to measure tropospheric NO2 in the Pearl River Delta region in the south of China. By combining the measurements in nadir and zenith directions and analyzing the UV and visible spectral region using the DOAS method, information about tropospheric NO2 vertical columns was obtained. Strong tropospheric NO2 signals were detected when flying over heavilly polluted regions and point sources like plants. The AMAX-DOAS results were compared with ground-based MAX-DOAS observations in the southwest of Zhuhai city using the same parameters for radiative transport calculations. The difference in vertical column data between the two instruments is about 8%. Our data were also compared with those from OMI and fair agreement was obtained with a correlation coefficient R of 0.61. The difference between the two instruments can be attributed to the different spatial resolution and the temporal mismatch during the measurements.
Liu Rui-Xue, Zheng Xian-Liang, Li Da-Yu, Xia Ming-Liang, Hu Li-Fa, Cao Zhao-Liang, Mu Quan-Quan, Xuan Li
Chin. Phys. B, 2014, 23 (9): 094211 doi: 10.1088/1674-1056/23/9/094211
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With the help of adaptive optics (AO) technology, cellular level imaging of living human retina can be achieved. Aiming to reduce distressing feelings and to avoid potential drug induced diseases, we attempted to image retina with dilated pupil and froze accommodation without drugs. An optimized liquid crystal adaptive optics camera was adopted for retinal imaging. A novel eye stared system was used for stimulating accommodation and fixating imaging area. Illumination sources and imaging camera kept linkage for focusing and imaging different layers. Four subjects with diverse degree of myopia were imaged. Based on the optical properties of the human eye, the eye stared system reduced the defocus to less than the typical ocular depth of focus. In this way, the illumination light can be projected on certain retina layer precisely. Since that the defocus had been compensated by the eye stared system, the adopted 512×512 liquid crystal spatial light modulator (LC-SLM) corrector provided the crucial spatial fidelity to fully compensate high-order aberrations. The Strehl ratio of a subject with -8 diopter myopia was improved to 0.78, which was nearly close to diffraction-limited imaging. By finely adjusting the axial displacement of illumination sources and imaging camera, cone photoreceptors, blood vessels and nerve fiber layer were clearly imaged successfully.
Fan Zhen-Kai, Li Shu-Guang, Fan Yu-Qiu, Zhang Wan, An Guo-Wen, Bao Ya-Jie
Chin. Phys. B, 2014, 23 (9): 094212 doi: 10.1088/1674-1056/23/9/094212
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We design a novel kind of polarization beam splitter based on a gold-filled dual-core photonic crystal fiber (DC-PCF). Owing to filling with two gold wires in this DC-PCF, its coupling characteristics can be changed greatly by the second-order surface plasmon polariton (SPP) and the resonant coupling between the surface plasmon modes and the fiber-core guided modes can enhance the directional power transfer in the two fiber-cores. Numerical results by using the finite element method show the extinction ratio at the wavethlengths of 1.327 μm and 1.55 μm can reach-58 dB and-60 dB and the bandwidths as the extinction ratio better than-12 dB are about 54 nm and 47 nm, respectively. Compared with the gold-unfilled DC-PCF, a 1.746-mm-long gold-filled DC-PCF is better applied to the polarization beam splitter in the two communication bands of λ=1.327 μm and 1.55 μm.
Yang Yuan-Hong, Suo Xin-Xin, Yang Wei
Chin. Phys. B, 2014, 23 (9): 094213 doi: 10.1088/1674-1056/23/9/094213
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The compact super-fluorescent fiber source (SFS) output spectra variations at different pump currents and under different dose of gamma-ray radiation were measured and compared respectively. The radiation-induced attenuation (RIA) self-compensating effect in SFS based on photo-bleaching was found and the general mathematic model of SFS output spectra variations was made. The radiation-induced background attenuation (RIBA) at the pump wavelength was identified to be the main cause of the total output power and spectra variations and the variations can then be compensated by active control of the pump power to enhance the self-compensating effect. With closed-loop feedback control of pump current, double-pass backward (DPB) configuration and spectrum re-shaping technology, an SFS prototype was made and tested. The mean-wavelength stability of about 87.4 ppm and output power instability of less than 5% were achieved under up to 200 krad (Si) gamma-ray irradiation.
Liu Shuang, Zhao Shuang-Shuang, Sun Bao-Ping, Zhang Wen-Ming
Chin. Phys. B, 2014, 23 (9): 094501 doi: 10.1088/1674-1056/23/9/094501
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Hopf bifurcation and chaos of a nonlinear electromechanical coupling relative rotation system are studied in this paper. Considering the energy in air-gap field of AC motor, the dynamical equation of nonlinear electromechanical coupling relative rotation system is deduced by using the dissipation Lagrange equation. Choosing the electromagnetic stiffness as a bifurcation parameter, the necessary and sufficient conditions of Hopf bifurcation are given, and the bifurcation characteristics are studied. The mechanism and conditions of system parameters for chaotic motions are investigated rigorously based on the Silnikov method, and the homoclinic orbit is found by using the undetermined coefficient method. Therefore, Smale horseshoe chaos occurs when electromagnetic stiffness changes. Numerical simulations are also given, which confirm the analytical results.
Liu Wan-Hai, Yu Chang-Ping, Ye Wen-Hua, Wang Li-Feng
Chin. Phys. B, 2014, 23 (9): 094502 doi: 10.1088/1674-1056/23/9/094502
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The nonlinear saturation amplitude (NSA) of the fundamental mode in the classical Rayleigh-Taylor instability with a cylindrical geometry for an arbitrary Atwood number is analytically investigated by considering the nonlinear corrections up to the third order. The analytic results indicate that the effects of the initial radius of the interface (r0) and the Atwood number (A) play an important role in the NSA of the fundamental mode. The NSA of the fundamental mode first increases gently and then decreases quickly with increasing A. For a given A, the smaller the r0/λ (λ is the perturbation wavelength), the larger the NSA of the fundamental mode. When r0/λ is large enough (r0 λ), the NSA of the fundamental mode is reduced to the prediction in the previous literatures within the framework of the third-order perturbation theory.
PHYSICS OF GASES, PLASMAS, AND ELECTRIC DISCHARGES
Yang Chao, Yin Mao-Wei, Shang Li-Ping, Wei Ai-Yong
Chin. Phys. B, 2014, 23 (9): 095201 doi: 10.1088/1674-1056/23/9/095201
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A systematic research on the electron deposition process in the JAEA 10 A ion source is carried out by using a particle-in-cell/Monte Carlo collision simulation, which is based on a full three-dimensional self-developed code. Two parts are studied. One is the space and energy distribution of fast and slow electrons, the other is the vibration excitation collisions between electrons and hydrogen moleculars. The results show that the inhomogeneity of electrons comes from the Y direction drift of the fast electrons (Te ≥qq25 eV) due to the action of the magnetic fields. This drift also increases the number of vibration excitation collisions in the -Y direction, and results in the increase of Ha in the -Y direction, eventually leading to the -Y drift of H-. It explains the spatial non-uniformity in the JAEA 10 A ion source.
Li Xue-Chen, Bao Wen-Ting, Jia Peng-Ying, Zhao Huan-Huan, Di Cong, Chen Jun-Ying
Chin. Phys. B, 2014, 23 (9): 095202 doi: 10.1088/1674-1056/23/9/095202
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A large-gap uniform discharge is ignited by a coaxial dielectric barrier discharge and burns between a needle anode and a plate cathode under a low sustaining voltage by feeding with flowing argon. The basic aspects of the large-gap uniform discharge are investigated by optical and spectroscopic methods. From the discharge images, it can be found that this discharge has similar regions with glow discharge at low pressure except a plasma plume region. Light emission signals from the discharge indicate that the plasma column is invariant with time, while there are some stochastic pulses in the plasma plume region. The optical emission spectra scanning from 300 nm to 800 nm are used to calculate the excited electron temperature and vibrational temperature of the large-gap uniform discharge. It has been found that the excited electron temperature almost keeps constant and the vibrational temperature increases with increasing discharge current. Both of them decreases with increasing gas flow rate.
CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
Liu Jing, Wang Jia-Ou, Yi Fu-Ting, Wu Rui, Zhang Nian, Ibrahim Kurash
Chin. Phys. B, 2014, 23 (9): 096101 doi: 10.1088/1674-1056/23/9/096101
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Silicon nanopillars are fabricated by inductively coupled plasma (ICP) dry etching with the cesium chloride (CsCl) islands as masks originally from self-assembly. Wafers with nanopillar texture or planar surface are subjected to phosphorus (P) diffusion by liquid dopant source (POCl3) at 870℃ to form P-N junctions with a depth of 300 nm. The X-ray photoelectron spectroscopy (XPS) is used to measure the Si 2p core levels of P-N junction wafer with nanopillar texture and planar surface. With a visible light excitation, the P-N junction produces a new electric potential for photoelectric characteristic, which causes the Si 2p core level to have a energy shift compared with the spectrum without the visible light. The energy shift of the Si 2p core level is -0.27 eV for the planar P-N junction and-0.18 eV for the nanopillar one. The difference in Si 2p energy shift is due to more space lattice defects and chemical bond breaks for nanopillar compared with the planar one.
Shao Zhu-Feng, Yang Yan-Qiang, Liu Shu-Tian, Wang Qiang
Chin. Phys. B, 2014, 23 (9): 096102 doi: 10.1088/1674-1056/23/9/096102
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Highly ordered TiO2 nanotube array (TNA) films are fabricated by using an anodic oxidation method. Au nanoparticles (NPs) films are decorated onto the top of TNA films with the aid of ion-sputtering and thermal annealing. An enhanced photocatalytic activity under ultraviolet C (UVC, 266 nm) light irradiation is obtained compared with that of the pristine TNA, which is shown by the steady-state photoluminescence (PL) spectra. Furthermore, a distinct blue shift in the nanosecond time-resolved transient photoluminescence (NTRT-PL) spectra is observed. Such a phenomenon could be well explained by considering the competition between the surface photocatalytic process and the recombination of the photo-generated carriers. The enhanced UV photocatalytic activities of the Au-TNA composite are evaluated through photo-degradation of methyl orange (MO) in an aqueous solution with ultraviolet-visible absorption spectrometry. Our current work may provide a simple strategy to synthesize defect-related composite photocatalytic devices.
Zhang Chen-Hui, Xiang Gang, Lan Mu, Zhang Xi
Chin. Phys. B, 2014, 23 (9): 096103 doi: 10.1088/1674-1056/23/9/096103
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Variations in magnetic and electronic properties as a function of uniaxial strain in wurtzite (Ga,Mn)As nanowires (NWs) grown along the [0001] direction were investigated based on density functional theory (DFT). We found that (Ga,Mn)As NWs are half-metal, and the ferromagnetic state is their stable ground state. The magnetism of the NWs is significantly affected by the strain and by the substituent position of Mn impurities. By examining charge densities near the Fermi level, we found that strain can regulate the conductive region of the NWs. More interestingly, the size of spin-down band gap of the NWs is tunable by adjusting uniaxial stress, and the NWs can be converted from indirect to direct band gap under tension.
Fan Xue-Lan, Niu Chun-Yao, Wang Xin-Quan, Wang Jian-Tao, Li Han-Dong
Chin. Phys. B, 2014, 23 (9): 096104 doi: 10.1088/1674-1056/23/9/096104
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By means of the first-principles calculations, we have investigated the structural stability and electronic properties of carbon star lattice monolayer and nanoribbons. The phase stability of the carbon star lattice is verified through phonon-mode analysis and room temperature molecular dynamics simulations. The carbon star lattice is found to be metallic due to the large states across the Fermi-level contributed by pz orbital. Furthermore, the nanoribbons are also found to be metallic and no spin polarization occurs, except for the narrowest nanoribbon with one C12 ring, which has a ferromagnetic ground state. Our results show that carbon star lattice monolayer and nanoribbons have rich electronic properties with great potential in future electronic nanodevices.
Shao Zhu-Feng, Yang Yan-Qiang, Liu Shu-Tian, Wang Qiang
Chin. Phys. B, 2014, 23 (9): 096105 doi: 10.1088/1674-1056/23/9/096105
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Highly ordered TiO2 nanotube array (TNA) films are fabricated by using an anodic oxidation method. Au nanoparticles (NPs) films are decorated onto the top of TNA films with the aid of ion-sputtering and thermal annealing. An enhanced photocatalytic activity under ultraviolet C (UVC, 266 nm) light irradiation is obtained compared with that of the pristine TNA, which is shown by the steady-state photoluminescence (PL) spectra. Furthermore, a distinct blue shift in the nanosecond time-resolved transient photoluminescence (NTRT-PL) spectra is observed. Such a phenomenon could be well explained by considering the competition between the surface photocatalytic process and the recombination of the photo-generated carriers. The enhanced UV photocatalytic activities of the Au-TNA composite are evaluated through photo-degradation of methyl orange (MO) in an aqueous solution with ultraviolet-visible absorption spectrometry. Our current work may provide a simple strategy to synthesize defect-related composite photocatalytic devices.
Ding Ai-Ling, Li Chun-Mei, Wang Jin, Ao Jing, Li Feng, Chen Zhi-Qian
Chin. Phys. B, 2014, 23 (9): 096201 doi: 10.1088/1674-1056/23/9/096201
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The elastic constants, elastic anisotropy index, and anisotropic fractional ratios of Ti4AlC3, Zr4AlC3, and Hf4AlC3 are studied by using a plane wave method based on density functional theory. All compounds are characterized by the elastic anisotropy index. The bond length, population, and hardness of the three compounds are calculated. The degrees of hardness are then compared. The minimum thermal conductivity at high temperature limitation in the propagation direction of [0001] (0001) is calculated by the acoustic wave velocity, which indicates that the thermal conductivity is also anisotropic. Finally, the electronic structures of the compounds are analyzed numerically. We show that the bonding of the M4AlC3 lattice exhibits mixed properties of covalent bonding, ionic bonding, and metallic bonding. Moreover, no energy gap is observed at the Fermi level, indicating that various compounds exhibit metallic conductivity at the ground state.
Hu Qiu-Shi, Zhao Feng
Chin. Phys. B, 2014, 23 (9): 096202 doi: 10.1088/1674-1056/23/9/096202
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Converging spherical and cylindrical elastic-plastic waves in an isotropic work-hardening medium is investigated on the basis of a finite difference method. The small amplitude pressure is applied instantaneously and maintained on the outer surface of a spherical or a cylindrical medium. It is found that for undercritical loading, the induced wave structure is an elastic front followed in turn by an expanding plastic region and an expanding elastic region. For supercritical loading, the elastic front is followed in turn by an expanding plastic region, a narrowing elastic region and an expanding plastic region. After yielding is initiated, the strength of the elastic front is constant and equal to the critical loading pressure. The motion of the continuous elastic-plastic interface is discussed in detail. Spatial distributions of pressure near the axis show the strength of the converging wave is nearly doubled in the reflecting stage.
Tao Tao, Zhi Ting, Li Ming-Xue, Xie Zi-Li, Zhang Rong, Liu Bin, Li Yi, Zhuang Zhe, Zhang Guo-Gang, Jiang Fu-Long, Chen Peng, Zheng You-Dou
Chin. Phys. B, 2014, 23 (9): 096203 doi: 10.1088/1674-1056/23/9/096203
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A significant enhancement in solar hydrogen generation efficiency has been achieved by inductive coupled etching (ICP) surface roughening treatment using nano-sized nickel mask. As much as 7 times improvement of photocurrent is demonstrated in comparison with a planar one fabricated from the same parent wafer. Under identical illumination conditions in HBr solution, the incident photon conversion efficiency (IPCE) shows an enhancement with a factor of 3, which even exceed 54% at 400 nm wavelength. We believe the enhancement is attributed to several facts including improvement in absorption, reacting area, carrier localization and carrier lifetime.
Ma Xiao-Juan, Hao Bin-Bin, Ma Hai-Xia, Liu Fu-Sheng
Chin. Phys. B, 2014, 23 (9): 096204 doi: 10.1088/1674-1056/23/9/096204
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The strength always exists before the material melts. In this paper, the viscoelastic-plastic model is applied to improve the finite difference method, and the numerical solutions for the disturbance amplitude damping behavior of the sinusoidal shock front in a flyer-impact experiment are obtained. When the aluminum is shocked to 101 GPa, the effect of elastoplasticity on the zero-amplitude point of the oscillatory damping curve is the same as that of viscosity when η=700 Pa·s, and the real shear viscosity coefficient of the shocked aluminum is determined to be about 2800±100 Pa·s. Comparing the experiment data with the numerical results of the viscoelastic-plastic model, we find that the aluminum is close to melting at 101 GPa.
Chen Xi, Zhang Jia-Shu
Chin. Phys. B, 2014, 23 (9): 096401 doi: 10.1088/1674-1056/23/9/096401
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Image texture feature extraction is a classical means for biometric recognition. To extract effective texture feature for matching, we utilize local fractal auto-correlation to construct an effective image texture descriptor. Three main steps are involved in the proposed scheme: (i) using two-dimensional Gabor filter to extract the texture features of biometric images; (ⅱ) calculating the local fractal dimension of Gabor feature under different orientations and scales using fractal auto-correlation algorithm; and (ⅲ) linking the local fractal dimension of Gabor feature under different orientations and scales into a big vector for matching. Experiments and analyses show our proposed scheme is an efficient biometric feature extraction approach.
M. Cvetinov, D. Ž. Obadović, M. Stojanović, A. Vajda, K. Fodor-Csorba, N. Eber, I. Ristić
Chin. Phys. B, 2014, 23 (9): 096402 doi: 10.1088/1674-1056/23/9/096402
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In this work, five mixtures with different concentrations of banana-shaped and calamitic compounds have been prepared and subsequently studied by polarizing optical microscopy, differential scanning calorimetry, and X-ray diffraction on non-oriented samples. The phase sequences and molecular parameters of the binary systems are presented.
Hu Guo-Jie, Cao Bing-Yang
Chin. Phys. B, 2014, 23 (9): 096501 doi: 10.1088/1674-1056/23/9/096501
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Heat conduction in single-walled carbon nanotubes (SWCNTs) has been investigated by using various methods, while less work has been focused on multi-walled carbon nanotubes (MWCNTs). The thermal conductivities of the double-walled carbon nanotubes (DWCNTs) with two different temperature control methods are studied by using molecular dynamics (MD) simulations. One case is that the heat baths (HBs) are imposed only on the outer wall, while the other is that the HBs are imposed on both the two walls. The results show that the ratio of the thermal conductivity of DWCNTs in the first case to that in the second case is inversely proportional to the ratio of the cross-sectional area of the DWCNT to that of its outer wall. In order to interpret the results and explore the heat conduction mechanisms, the inter-wall thermal transport of DWCNTs is simulated. Analyses of the temperature profiles of a DWCNT and its two walls in the two cases and the inter-wall thermal resistance show that in the first case heat is almost transported only along the outer wall, while in the second case a DWCNT behaves like parallel heat transport channels in which heat is transported along each wall independently. This gives a good explanation of our results and presents the heat conduction mechanisms of MWCNTs.
Wang Huan, Yao Shu-De
Chin. Phys. B, 2014, 23 (9): 096801 doi: 10.1088/1674-1056/23/9/096801
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An Al0.2Ga0.8N/AlN/Al0.2Ga0.8N heterostructure was grown by metalorganic chemical vapor deposition on a sapphire (0001) substrate with a thick (>1 μm) GaN intermediate layer. The Al composition was determined by Rutherford backscattering (RBS). Using the channeling scan around an off-normal [1213] axis in the (1010) plane of the Al0.2Ga0.8N layer, the tetragonal distortion eT, which is caused by the elastic strain in the epilayer, is investigated. The results show that eT in the high-quality Al0.2Ga0.8N layer is dramatically released by the AlN interlayer from 0.66% to 0.27%.
Zhao Yun, Wang Gang, Yang Huai-Chao, An Tie-Lei, Chen Min-Jiang, Yu Fang, Tao Li, Yang Jian-Kun, Wei Tong-Bo, Duan Rui-Fei, Sun Lian-Feng
Chin. Phys. B, 2014, 23 (9): 096802 doi: 10.1088/1674-1056/23/9/096802
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Graphene on gallium nitride (GaN) will be quite useful when the graphene is used as transparent electrodes to improve the performance of gallium nitride devices. In this work, we report the direct synthesis of graphene on GaN without an extra catalyst by chemical vapor deposition. Raman spectra indicate that the graphene films are uniform and about 5-6 layers in thickness. Meanwhile, the effects of growth temperatures on the growth of graphene films are systematically studied, of which 950℃ is found to be the optimum growth temperature. The sheet resistance of the grown graphene is 41.1 Ω/square, which is close to the lowest sheet resistance of transferred graphene reported. The mechanism of graphene growth on GaN is proposed and discussed in detail. XRD spectra and photoluminescence spectra indicate that the quality of GaN epi-layers will not be affected after the growth of graphene.
CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
M. Asghar, K. Mahmood, M. A. Hasan, I. T. Ferguson, R. Tsu, M. Willder
Chin. Phys. B, 2014, 23 (9): 097101 doi: 10.1088/1674-1056/23/9/097101
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We report deep level transient spectroscopy results from ZnO layers grown on silicon by molecular beam epitaxy (MBE). The hot probe measurements reveal mixed conductivity in the as-grown ZnO layers, and the current-voltage (I-V) measurements demonstrate a good quality p-type Schottky device. A new deep acceptor level is observed in the ZnO layer having activation energy of 0.49± 0.03 eV and capture cross-section of 8.57×10-18 cm2. Based on the results from Raman spectroscopy, photoluminescence, and secondary ion mass spectroscopy (SIMS) of the ZnO layer, the observed acceptor trap level is tentatively attributed to a nitrogen-zinc vacancy complex in ZnO.
Liu Ying, He Jin, Chan Mansun, Du Cai-Xia, Ye Yun, Zhao Wei, Wu Wen, Deng Wan-Ling, Wang Wen-Ping
Chin. Phys. B, 2014, 23 (9): 097102 doi: 10.1088/1674-1056/23/9/097102
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An analytical model of gate-all-around (GAA) silicon nanowire tunneling field effect transistors (NW-TFETs) is developted based on the surface potential solutions in the channel direction and considering the band to band tunneling (BTBT) efficiency. The three-dimensional Poisson equation is solved to obtain the surface potential distributions in the partition regions along the channel direction for the NW-TFET, and a tunneling current model using Kane's expression is developed. The validity of the developed model is shown by the good agreement between the model predictions and the TCAD simulation results.
He Yun, Chen Xiao-Qing, Hou Xiao-Yuan
Chin. Phys. B, 2014, 23 (9): 097201 doi: 10.1088/1674-1056/23/9/097201
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In some organic materials, varying the finite distance between adjacent carrier traps modifies the Coulomb potential around each trap, resulting in a more complex field-dependence of mobility, differing from (but not incompatible with) the usually considered relationship of ln μ ∝ √E, a relationship which has been successfully explained by the Poole-Frenkel effect. To investigate the influence of the adjacency of traps, a model system is proposed, which consists of two traps separated by distance α. Our numerical calculation shows that with increasing α, the dependence of mobility on the electric field changes from linear to exponential. Moreover, beyond a certain large α, i.e., as the distance to the nearest trap approaches infinity, the proposed model is essentially the same as the Poole-Frenkel effect. The proposed model accounts for the effect of the energy barrier shape, especially the effect of the location of the potential-energy maximum, a phenomenon which is not accommodated in the Poole-Frenkel model. Because the model assumes the Coulomb interaction between the adjacent traps, it applies to those charged traps which may exist in organic materials for various reasons.
Zhang Hui-Yun, Shen Duan-Long, Zhang Yu-Ping, Yang Wei-Jie, Yuan Cai, Liu Meng, Yin Yi-Heng, Wu Zhi-Xin
Chin. Phys. B, 2014, 23 (9): 097301 doi: 10.1088/1674-1056/23/9/097301
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Novel band-stop filters with circular split-ring resonators based on the metal-insulator-metal (MIM) structure are presented, with their transmission properties of SPPs propagating through the filter simulated by the finite-difference time-domain (FDTD) method. The variation of the gap of the split ring can affect the transmission characteristics, i.e., the transmission spectrum of SPPs exhibiting a shift, which is useful for modulating the filter. Linear and nonlinear media are used in the resonator respectively. By varying the refractive index of the linear medium, the transmission properties can be changed obviously, and the effect caused by changing the incident intensity with a nonlinear medium is similar. Several resonant modes that are applicable can be enhanced by changing the position of the gap of the split ring. Thus, the transmission properties can be modulated by adjusting the size of the gap, varying the refractive index, and changing the incident intensity of the input light. These methods may play significant roles in applications of optical integrated circuits and nanostructural devices.
Ci Xue-Ting, Wu Bo-Tao, Song Min, Chen Geng-Xu, Liu Yan, Wu E, Zeng He-Ping
Chin. Phys. B, 2014, 23 (9): 097303 doi: 10.1088/1674-1056/23/9/097303
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The localized surface plasmon resonance properties of Al and Alcore/Al2O3shell nanosphere dimers with Al and Al core nanosphere radii of 20 nm and Al2O3 shell of 2 nm in the deep-ultraviolet region have been studied using the finite difference time domain method. The extinction spectra and the electric field distribution profiles of the two dimers for various gap distances between two individual nanospheres are compared with those of the corresponding monomers to reveal the extent of plasmon coupling. It is found that with the interparticle distance decreasing, a strong plasmon coupling between two Al or Alcore/Al2O3shell nanospheres is observed accompanied by a significant red shift in the extinction spectra at the parallel polarization direction of the incident light related to the dimer axis, while for the case of the perpendicular polarization direction, a weak plasmon coupling arises characterized by a slight blue shift in the extinction spectra. The electric field distribution profiles show that benefiting from the dielectric Al2O3 shell, the gap distance of Alcore/Al2O3shell nanosphere dimers can be tailored to < 1 nm scale and results in a very high electric field enhancement. The estimated surface-enhanced Raman scattering enhancement factors suggests that the Alcore/Al2O3shell nanosphere dimers with the gap of < 1 nm gave rise to an enhancement as high as 8.1×107 for interparticle gap=0.5 nm. Our studies reveal that the Alcore/Al2O3shell nanosphere dimers may be promising substrates for surface-enhanced spectroscopy in the deep-ultraviolet region.
Hassen Dakhlaoui
Chin. Phys. B, 2014, 23 (9): 097304 doi: 10.1088/1674-1056/23/9/097304
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In this paper, we theoretically study the effects of doping concentration ND and an external electric field on the intersubband transitions in InxAl(1-x)N/InyGa(1-y)N single quantum well by solving the Schrödinger and Poisson equations self-consistently. Obtained results including transition energies, the band structure, and the optical absorption have been discussed. The lowest three intersubband transitions (E2-E1), (E3-E1), and (E3-E2) are calculated as functions of doping concentration ND. By increasing the doping concentration ND, the depletion effect can be reduced, and the ionized electrons will compensate the internal electric field which results from the spontaneous polarization. Our results show that an optimum concentration ND exists for which the transition 0.8 eV (1.55 μm) is carried out. Finally, the dependence of the optical absorption α 13 (ω) on the external electric field and doping concentration is studied. The maximum of the optical absorption can be red-shifted or blue-shifted through varying the doping concentration and the external electric field. The obtained results can be used for designing optical fiber telecommunications operating at 1.55 μm.
Zhao Sheng-Lei, Wang Yuan, Yang Xiao-Lei, Lin Zhi-Yu, Wang Chong, Zhang Jin-Cheng, Ma Xiao-Hua, Hao Yue
Chin. Phys. B, 2014, 23 (9): 097305 doi: 10.1088/1674-1056/23/9/097305
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In this paper, we present the combination of drain field plate (FP) and Schottky drain to improve the reverse blocking capability, and investigate the reverse blocking enhancement of drain FP in Schottky-drain AlGaN/GaN high-electron mobility transistors (HEMTs). Drain FP and gate FP were employed in a two-dimensional simulation to improve the reverse blocking voltage (VRB) and the forward blocking voltage (VFB). The drain-FP length, the gate-FP length and the passivation layer thickness were optimized. VRB and VFB were improved from-67 V and 134 V to-653 V and 868 V respectively after optimization. Simulation results suggest that the combination of drain FP and Schottky drain can enhance the reverse blocking capability significantly.
Yang Fu-Jiang, Xie Shi-Jie
Chin. Phys. B, 2014, 23 (9): 097306 doi: 10.1088/1674-1056/23/9/097306
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For the organic magnetoresistance (OMAR) effect, we suggest a spin-related hopping of carriers (polarons) based on Marcus theory. The mobility of polarons is calculated with the master equation (ME) and then the magnetoresistance (MR) is obtained. The theoretical results are consistent with the experimental observation. Especially, the sign inversion of the MR under different driving bias voltages found in the experiment is predicted. Besides, the effects of molecule disorder, hyperfine interaction (HFI), polaron localization, and temperature on the MR are investigated.
Wu Mei, Zheng Da-Yong, Wang Yuan, Chen Wei-Wei, Zhang Kai, Ma Xiao-Hua, Zhang Jin-Cheng, Hao Yue
Chin. Phys. B, 2014, 23 (9): 097307 doi: 10.1088/1674-1056/23/9/097307
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The behavior of Schottky contacts in AlGaN/GaN high electron mobility transistors (HEMTs) is investigated by temperature-dependent current-voltage (T-I-V) measurements from 300 K to 473 K. The ideality factor and barrier height determined based on the thermionic emission (TE) theory are found to be strong functions of temperature, while present a great deviation from the theoretical value, which can be expounded by the barrier height inhomogeneities. In order to determine the forward current transport mechanisms, the experimental data are analyzed using numerical fitting method, considering the temperature-dependent series resistance. It is observed that the current flow at room temperature can be attributed to the tunneling mechanism, while thermionic emission current gains a growing proportion with an increase in temperature. Finally, the effective barrier height is derived based on the extracted thermionic emission component, and an evaluation of the density of dislocations is made from the I-V characteristics, giving a value of 1.49×107 cm-2.
Jiang Chao, Lu Hai, Chen Dun-Jun, Ren Fang-Fang, Zhang Rong, Zheng You-Dou
Chin. Phys. B, 2014, 23 (9): 097308 doi: 10.1088/1674-1056/23/9/097308
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In this work, the breakdown characteristics of AlGaN/GaN planar Schottky barrier diodes (SBDs) fabricated on the silicon substrate are investigated. The breakdown voltage (BV) of the SBDs first increases as a function of the anode-to-cathode distance and then tends to saturate at larger inter-electrode spacing. The saturation behavior of the BV is likely caused by the vertical breakdown through the intrinsic GaN buffer layer on silicon, which is supported by the post-breakdown primary leakage path analysis with the emission microscopy. Surface passivation and field plate termination are found effective to suppress the leakage current and enhance the BV of the SBDs. A high BV of 601 V is obtained with a low on-resistance of 3.15 mΩ·cm2.
Liu Zheng-Hao, Wei Yu-Ke, Wang Da, Zhang Chen, Ma Ping, Wang Yue
Chin. Phys. B, 2014, 23 (9): 097401 doi: 10.1088/1674-1056/23/9/097401
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We describe the fabrication of high performance YBa2Cu3O7-δ (YBCO) radio frequency (RF) superconducting quantum interference devices (SQUIDs), which were prepared on 5 mm×5 mm LaAlO3 (LAO) substrates by employing step-edge junctions (SEJs) and in flip-chip configuration with 12 mm×12 mm resonators. The step in the substrate was produced by Ar ion etching with step angles ranging from 47° to 61°, which is steep enough to ensure the formation of grain boundaries (GBs) at the step edges. The YBCO film was deposited using the pulsed laser deposition (PLD) technique with a film thickness half of the height of the substrate step. The inductance of the SQUID washer was designed to be about 157 pH. Under these circumstances, high performance YBCO RF SQUIDs were successfully fabricated with a typical flux-voltage transfer ratio of 83 mV/Φ 0, a white flux noise of 29 μΦ 0/√Hz, and the magnetic field sensitivity as high as 80 fT/√Hz. These devices have been applied in magnetocardiography and geological surveys.
Yang Hui, Yun Guo-Hong, Cao Yong-Jun
Chin. Phys. B, 2014, 23 (9): 097501 doi: 10.1088/1674-1056/23/9/097501
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Using the plane-wave expansion method, the spin-wave band structures of two-dimensional magnonic crystals consisting of square arrays of different shape scatterers are calculated numerically, and the effects of rotating rectangle and hexagon scaterers on the gaps are studied, respectively. The results show that the gaps can be substantially opened and tuned by rotating the scatterers. This approach should be helpful in designing magnonic crystals with desired gaps.
Shen Cheng-Juan, Liu Qiang, Gong Yuan-Yuan, Wang Dun-Hui, Du You-Wei
Chin. Phys. B, 2014, 23 (9): 097502 doi: 10.1088/1674-1056/23/9/097502
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The magnetic phase transition and magnetocaloric effect are studied in a series of Mn1-xZnxCoGe (x=0.01, 0.02, 0.04, and 0.08) alloys. By introducing a small quantity of Zn element, the structural transformation temperature of the MnCoGe alloy is greatly reduced and a first-order magnetostructural transition is observed. Further increasing the Zn concentration results in a second-order ferromagnetic transition. Large room-temperature magnetocaloric effects with small magnetic hysteresis are obtained in alloys with x=0.01 and 0.02, which suggests their potential application in magnetic refrigeration.
Peng Ying-Zi, Li Yuan, Bai Ru, Huo De-Xuan, Qian Zheng-Hong
Chin. Phys. B, 2014, 23 (9): 097503 doi: 10.1088/1674-1056/23/9/097503
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Zn and Co multi-doped CeO2 thin films have been prepared using an anodic electrochemical method. The structures and magnetic behaviors are characterized by several techniques, in which the oxygen states in the lattice and the absorptive oxygen bonds at the surface are carefully examined. The absorptive oxygen bond is about 50% of the total oxygen bond by using a semi-quantitative method. The value of actual stoichiometry δ' is close to 2. The experimental results indicate that the thin films are of a cerium oxide-based solid solution with few oxygen vacancies in the lattice and many absorptive oxygen bonds at the surface. Week ferromagnetic behaviors were evidenced by observed M-H hysteresis loops at room temperature. Furthermore, an evidence of relative ferromagnetic contributions was revealed by the temperature dependence of magnetization. It is believed that the ferromagnetic contributions exhibited in the M-H loops originate from the absorptive oxygen on the surface rather than the oxygen vacancies in the lattice.
Zhang Xi-Chao, Zhao Guo-Ping, Xia Jing, Yue Ming, Yuan Xin-Hong, Xie Lin-Hua
Chin. Phys. B, 2014, 23 (9): 097504 doi: 10.1088/1674-1056/23/9/097504
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Hysteresis loops and energy products have been calculated systematically by a three-dimensional (3D) software OOMMF for Sm-Co/α-Fe/Sm-Co trilayers with various thicknesses and β, where β is the angle between the easy axis and the field applied perpendicular to the film plane. It is found that trilayers with a perpendicular anisotropy possess considerably larger coercivities and smaller remanences and energy products compared with those with an in-plane anisotropy. Increase of β leads to a fast decrease of the maximum energy product as well as the drop of both remanence and coercivity. Such a drop is much faster than that in the single-phased hard material, which can explain the significant discrepancy between the experiment and the theoretical energy products. Some modeling techniques have been utilized with spin check procedures performed, which yield results in good agreement with the one-dimensional (1D) analytical and experimental data, justifying our calculations. Further, the calculated nucleation fields according to the 3D calculations are larger than those based on the 1D model, whereas the corresponding coercivity is smaller, leading to more square hysteresis loops and better agreement between experimental data and the theory.
Ma Zheng-Zheng, Li Jian-Qing, Chen Zi-Peng, Tian Zhao-Ming, Hu Xiao-Jun, Huang Hai-Jun
Chin. Phys. B, 2014, 23 (9): 097505 doi: 10.1088/1674-1056/23/9/097505
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Multiferroic properties and exchange bias (EB) in Bi1-xSrxFeO3 (x=0-0.6) ceramics synthesized by a modified Pechini method are investigated. Sr concentration dependence of structure distorting, ferroelectric properties, and dielectric properties were studied at room temperature. Appropriate Sr doping (x=0.05-0.2) has been found to decrease the conductivity, enhance ferroelectric properties and give rise to high dielectric constant. Compared with antiferromagnetic BiFeO3 compound, BSFO-x (0 ≤ x ≤ 0.4) ceramics show weak ferromagnetism at room temperature, and their exchange bias field and vertical magnetization shift are observed and exhibit a strong dependence on the content of Sr. This observed EB effect which keeps stable in BSFO ceramics at 10 K tend to vanish at room temperature with Sr concentration over 0.4.
Gong Gao-Shang, Fang Yu-Jiao, Huang Shuai, Yin Chong-Yang, Yuan Song-Liu, Wang Li-Guang
Chin. Phys. B, 2014, 23 (9): 097701 doi: 10.1088/1674-1056/23/9/097701
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Sr4CaSmTi3Nb7O30 ceramics are synthesized and indexed as tetragonal tungsten bronze structure. The dielectric behavior and ferroelectric nature are investigated. Three dielectric anomalies are observed. The phase transition is a displacive phase transition with some diffusive characteristics, which indicates possible compositional variations within the materials on the microscopic scale. The weak distortion disappears in cooling process for differential scanning calorimetry measurement, and the large depression of Curie-Weiss temperature T0 indicates the difficulty in forming macroferroelectric domain. The ferroelectric nature in these filled tungsten bronze niobates originates from the off-center displacement of B-site cations, but they are primarily dominated by A-site cation occupation. Both the radius and the valence of A1-site cations play an important role on ferroelectric properties of the filled tungsten bronze compounds. Existence of spontaneous polarization with a remanent polarization of 0.16 μC/cm2 a coercive field of Ec=11.74 kV/cm confirms the room-temperature ferroelectric nature of Sr4CaSmTi3Nb7O30 ceramics.
Gao Rong-Li, Fu Chun-Lin, Cai Wei, Chen Gang, Deng Xiao-Ling, Yang Huai-Wen, Sun Ji-Rong, Shen Bao-Gen
Chin. Phys. B, 2014, 23 (9): 097702 doi: 10.1088/1674-1056/23/9/097702
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The transport properties and fatigue effect of Ag/Bi0.9La0.1FeO3/La0.7Sr0.3MnO3 heterostructures are described. By examining the I-V curves, an anomalous fatigue effect was found and its influences on resistive states were studied. I-V curves combined with C-f spectra were used to directly analyze the transport properties and fatigue effect. Compared to the first I-V cycle state, this structure shows more than one order increase of resistance after 100 cycles of “I-V curve training”. The redistribution of oxygen vacancies in the depletion layer of Ag/Bi0.9La0.1FeO3 is believed to be responsible for the different resistance mechanisms and tenfold magnitude drop in resistance. The resistive switching is understood to be caused by electric field-induced carrier trapping and detrapping, which changes the depletion layer thickness at the Ag/Bi0.9La0.1FeO3 interface.
Xie Jian-Sheng, Chen Qiang
Chin. Phys. B, 2014, 23 (9): 097703 doi: 10.1088/1674-1056/23/9/097703
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Li-N dual-doped ZnO films [ZnO:(Li,N)] with Li doping concentrations of 3 at.%-5 at.% were grown on a glass substrate using an ion beam enhanced deposition (IBED) method. An optimal p-type ZnO:(Li,N) film with the resistivity of 11.4 Ω·cm was obtained by doping 4 at.% of Li and 5 sccm flow ratio of N2. The ZnO:(Li,N) films exhibited a wurtzite structure and good transmittance in the visible region. The p-type conductive mechanism of ZnO:(Li,N) films are attributed to the Li substitute Zn site (LiZn) acceptor. N doping in ZnO can forms the Lii-NO complex, which depresses the compensation of Li occupy interstitial site (Lii) donors for LiZn acceptor and helps to achieve p-type ZnO:(Li,N) films. Room temperature photoluminescence measurements indicate that the UV peak (381 nm) is due to the shallow acceptors LiZn in the p-type ZnO:(Li,N) films. The band gap of the ZnO:(Li,N) films has a red-shift after p-type doping.
Gao Xu-Peng, Jiang Ye-Hua, Liu Yang-Zhen, Zhou Rong, Feng Jing
Chin. Phys. B, 2014, 23 (9): 097704 doi: 10.1088/1674-1056/23/9/097704
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Density functional theory (DFT) is applied to investigate the stability and mechanical properties of NbxCy compounds. The structures of NbxCy compounds are optimized, and the results are in good agreement with previous work. The calculated results of the cohesive energy and the formation enthalpy of NbxCy show that they are thermodynamically stable structures, except for Pmc21-Nb2C. The mechanical properties such as the bulk modulus, Young's modulus, the shear modulus, and Poisson's ratio are obtained by Voigt-Reuss-Hill approximation. The results show that the Young's modulus and shear modulus of NbC are larger than other NbxCy compounds. The mechanical anisotropy is characterized by calculating several different anisotropic indexes and factors, such as universal anisotropic index (AU), shear anisotropic factors (A1, A2, A3), and percent anisotropy (AB and AG). The surface constructions of bulk and Young's moduli are illustrated to indicate the mechanical anisotropy. The hardness of NbxCy compounds is also discussed in this paper. The estimated hardness for all NbxCy compounds is less than 20 GPa.
Lin She-Bao, Wang Peng-Fei, She Jiang-Bo, Guo Hai-Tao, Xu Shen-Nuo, Yu Cheng-Long, Liu Chun-Xiao, Peng Bo
Chin. Phys. B, 2014, 23 (9): 097801 doi: 10.1088/1674-1056/23/9/097801
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A series of oxyfluoride glasses with the compositions of 75 mol% TeO2, 10 mol% Nb2O5, (15 mol%-x) BaO, x BaF2 (x=0 mol%, 5 mol%, 10 mol%, 15 mol%) doped with Yb2O3 were prepared by the melt-quenching method. Their emission cross-sections, fluorescence lifetimes, and gain properties were investigated by using the absorption spectra and the fluorescence decay curves. The results show that by substituting BaF2 for BaO, the emission cross-section decreases from 1.37 pm2 to 1.21 pm2, and the fluorescence lifetime increases from 0.71 ms to 0.96 ms. These properties indicate that this oxyfluoride tellurite glass may have potential uses as the Yb2O3-doped gain medium in a solid laser.
Lü Cheng, Li Wei, Jiang Xun-Ya, Cao Jun-Cheng
Chin. Phys. B, 2014, 23 (9): 097802 doi: 10.1088/1674-1056/23/9/097802
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Based on a modified retrieving method, we demonstrate that hyperbolic metamaterials (HMs) have considerable robustness against disorders, even when the disorder strength is quite large. Our retrieval method is more precise when retrieving the parameters for anisotropic metamaterials. We also show that the light's negative refraction of an HM is nearly unaffected when relatively large disorders exist. These results help us to understand the HMs and they have a direct significance for experiments.

Wang Su-Feng, He Da-Wei, Wang Yong-Sheng, Hu Yin, Duan Jia-Hua, Fu Ming, Wang Wen-Shuo
Chin. Phys. B, 2014, 23 (9): 097803 doi: 10.1088/1674-1056/23/9/097803
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We synthesize Au@SiO2 composite particles with a core-shell structure, and utilize the Au@SiO2 nanoparticles to modulate the fluorescence emission of the graphene quantum dot (GQD) through varying the silica shell thickness. The silica shell thickness can be easily controlled by varying the coating time. After silica coating, we investigate the influence of the silica thickness on the fluorescence emission of the GQD and find that the fluorescence property of the GQD can be changed as expected by varying the thickness of the silica shell. We propose an optimized coating time for the silica shell under the interaction of fluorescence quenching and enhancement.
INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY
Zhang Liang, Lü Cheng, Kiet Tieu, Pei Lin-Qing, Zhao Xing
Chin. Phys. B, 2014, 23 (9): 098102 doi: 10.1088/1674-1056/23/9/098102
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Deformation in a microcomponent is often constrained by surrounding joined material making the component under mixed loading and multiple stress states. In this study, molecular dynamics (MD) simulation are conducted to probe the effect of stress states on the deformation and fracture of nanocrystalline Cu. Tensile strain is applied on a Cu single crystal, bicrystal and polycrystal respectively, under two different tension boundary conditions. Simulations are first conducted on the bicrystal and polycrystal models without lattice imperfection. The results reveal that, compared with the performance of simulation models under free boundary condition, the transverse stress caused by the constrained boundary condition leads to a much higher tensile stress and can severely limit the plastic deformation, which in return promotes cleavage fracture in the model. Simulations are then performed on Cu single crystal and polycrystal with an initial crack. Under constrained boundary condition, the crack tip propagates rapidly in the single crystal in a cleavage manner while the crack becomes blunting and extends along the grain boundaries in the polycrystal. Under free boundary condition, massive dislocation activities dominate the deformation mechanisms and the crack plays a little role in both single crystals and polycrystals.
Liu Wei, Wan Jing-Ping, Cai Wu-Peng, Liang Jian-Hua, Zhou Xiao-Song, Long Xing-Gui
Chin. Phys. B, 2014, 23 (9): 098103 doi: 10.1088/1674-1056/23/9/098103
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Zirconium (Zr) thin films deposited on Si (100) by pulsed laser deposition (PLD) at different pulse repetition rates are investigated. The deposited Zr films exhibit a polycrystalline structure, and the X-ray diffraction (XRD) patterns of the films show the α Zr phase. Due to the morphology variation of the target and the laser-plasma interaction, the deposition rate significantly decreases from 0.0431 Å/pulse at 2 Hz to 0.0189 Å/pulse at 20 Hz. The presence of droplets on the surface of the deposited film, which is one of the main disadvantages of the PLD, is observed at various pulse repetition rates. Statistical results show that the dimension and the density of the droplets increase with an increasing pulse repetition rate. We find that the source of droplets is the liquid layer formed under the target surface. The dense nanoparticles covered on the film surface are observed through atomic force microscopy (AFM). The root mean square (RMS) roughness caused by valleys and islands on the film surface initially increases and then decreases with the increasing pulse repetition rate. The results of our investigation will be useful to optimize the synthesis conditions of the Zr films.
Li Ji-Jiao, Li Bo, Peng Qin-Mei, Zhou Ji, Li Long-Tu
Chin. Phys. B, 2014, 23 (9): 098104 doi: 10.1088/1674-1056/23/9/098104
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Three groups of three-dimensional (3D) TiO2 woodpile electromagnetic gap materials with tailed rheological properties were developed for direct-written fabrication. Appropriate amount of polyethyleneimine (PEI) dispersants allow the preparation of TiO2 inks with a high solid content of 42 vol.%, which enables them to flow through the nozzles easily. The inks exhibit pseudoplastic behavior. The measured microwave characteristics of the results agree well with simulations based on plane wave expansion (PWE).
Zhang Feng, Wang Hai-Qian, Wang Song, Wang Jing-Yang, Zhong Zhi-Cheng, Jin Ye
Chin. Phys. B, 2014, 23 (9): 098105 doi: 10.1088/1674-1056/23/9/098105
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Tungsten oxide thin films were deposited on glass substrates by the magnetron sputtering of WO3 bulk at room temperature. The deposited films were annealed at different temperatures in air. The structural measurements indicate that the films annealed below 300℃ were amorphous, while the films annealed at 400℃ were mixed crystalline with hexagonal and triclinic phases of WO3. It was observed that the crystallization of the annealed films becomes more and more distinct with an increase in the annealing temperature. At 400℃, nanorod-like structures were observed on the film surface when the annealing time was increased from 60 min to 180 min. The presence of W=O stretching, W-O-W stretching, W-O-W bending and various lattice vibration modes were observed in Raman measurements. The optical absorption behaviors of the films in the range of 450-800 nm are very different with changing annealing temperatures from the room temperature to 400℃. After annealing at 400℃, the film becomes almost transparent. Increasing annealing time at 400℃ can lead to a small blue shift of the optical gap of the film.
Huang Kui-Dong, Zhang Hua, Shi Yi-Kai, Zhang Liang, Xu Zhe
Chin. Phys. B, 2014, 23 (9): 098106 doi: 10.1088/1674-1056/23/9/098106
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Cone-beam computed tomography (CBCT) has the notable features of high efficiency and high precision, and is widely used in areas such as medical imaging and industrial non-destructive testing. However, the presence of the ray scatter reduces the quality of CT images. By referencing the slit collimation approach, a scatter correction method for CBCT based on the interlacing-slit scan is proposed. Firstly, according to the characteristics of CBCT imaging, a scatter suppression plate with interlacing slits is designed and fabricated. Then the imaging of the scatter suppression plate is analyzed, and a scatter correction calculation method for CBCT based on the image fusion is proposed, which can splice out a complete set of scatter suppression projection images according to the interlacing-slit projection images of the left and the right imaging regions in the scatter suppression plate, and simultaneously complete the scatter correction within the flat panel detector (FPD). Finally, the overall process of scatter suppression and correction is provided. The experimental results show that this method can significantly improve the clarity of the slice images and achieve a good scatter correction.
Zhang Xue-Na, Wang Rong, Xue Gi
Chin. Phys. B, 2014, 23 (9): 098201 doi: 10.1088/1674-1056/23/9/098201
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Reaction pathways for the formation of thiolate-gold nanoparticles are investigated by density functional theory (DFT) and a new mechanism upon solvent polarity and tetraalkylammonium is obtained. In solvents with high polarities, [Au(I)SR]n polymers can be formed as the precursor of metal ions prior to the addition of a reducing agent; while a product of [Cl…AuCl(HSR)] is identified as the precursor in solvents with low polarities, such as toluene and chloroform. In addition, tetraalkylammonium also has an obvious effect on the reactions when it is used as a phase transfer agent in the two-phase synthesis. These findings offer a systematic analysis on the pathways to thiolate-stabilized nanoparticles and give a favorable explanation by comparison with those in an experimental system.
Cui Li-Min, Li Jie, Zhang Yu, Zhao Lu, Deng Hui, Huang Ke-Qiang, Li He-Kang, Zheng Dong-Ning
Chin. Phys. B, 2014, 23 (9): 098501 doi: 10.1088/1674-1056/23/9/098501
Full Text: [PDF 607 KB] (20)
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Electric double-layer field effect experiments were performed on ultrathin films of La0.325Pr0.3Ca0.375MnO3, which is noted for its micrometer-scale phase separation. A clear change of resistance up to 220% was observed and the characteristic metal-insulator transition temperature TP was also shifted. The changes of both the resistance and TP suggest that the electric field induced not only tuning of the carrier density but also rebalancing of the phase separation states. The change of the charge-ordered insulating phase fraction was estimated to be temperature dependent, and a maximum of 16% was achieved in the phase separation regime. This tuning effect was partially irreversible, which might be due to an oxygen vacancy migration that is driven by the huge applied electric field.
Wu Shuang-Hong, Ryosuke Nakamichi, Masatsugu Taneda, Zhang Qi-Sheng, Chihaya Adachi
Chin. Phys. B, 2014, 23 (9): 098502 doi: 10.1088/1674-1056/23/9/098502
Full Text: [PDF 229 KB] (7)
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We introduced a dual electron accepting layer composed of tetrafluoro-tetracyanoquinodimethane (F4-TCNQ) and MoO3 for thermoelectric devices based on a pentacene layer. We found that the power factor is enhanced by placing an F4-TCNQ layer directly in contact with the pentacene layer and it is also enhanced by placing a MoO3 layer between the F4-TCNQ layer and the Au electrode. By examining the contact resistance using a field effect transistor and a hole-only diode, we confirmed that the hole injection is improved due to the reduction of contact resistance at the interface between the MoO3 layer and the Au electrode.
Wang Lei, Zhu Guo-Bao
Chin. Phys. B, 2014, 23 (9): 098503 doi: 10.1088/1674-1056/23/9/098503
Full Text: [PDF 360 KB] (12)
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The pseudospin polarization induced by an external electric field in silicene in the presence of weakly spin-independent impurities is considered theoretically in the linear response regime based on Green's function method. We study the effects of the interplay between the sublattice potential and the intrinsic spin orbit coupling on the pseudospin polarization. We show that the pseudospin polarization perpendicular to the electric field is independent of the impurity parameter, while the pseudospin polarization in the direction of the electric field is sensitive to the impurity parameter. The dependences of the pseudospin polarizations on the chemical potential are studied.
Alain Mvogo, Germain H. Ben-Bolie, Timoléon C. Kofané
Chin. Phys. B, 2014, 23 (9): 098701 doi: 10.1088/1674-1056/23/9/098701
Full Text: [PDF 874 KB] (11)
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The modulational instability in the three coupled α-polypeptide chains of a collagen molecule is investigated. Choosing symmetric and asymmetric solutions, and applying the so-called rotating-wave approximation, we describe the dynamics of the system by the discrete nonlinear Schrödinger (DNLS) equation. The linear stability analysis of the continuous wave solution is performed. The numerical simulations show the generation of trains of solitonic structures in the lattice with increasing amplitude as time progresses. The effect of damping and noise forces of the physiological temperature (T=300 K) introduces an erratic behavior to the formed patterns, reinforcing the idea that the energy used in metabolic processes is confined to specific regions for efficiency.
Hu Tao, Wang Nai-Yan
Chin. Phys. B, 2014, 23 (9): 098702 doi: 10.1088/1674-1056/23/9/098702
Full Text: [PDF 1237 KB] (11)
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The electron energy spectrum is one of the most important characteristics of an electron beam that is extracted from a linear accelerator. The most direct way to determine an electron spectrum would be to use a magnetic spectrometer and this method could also give results with high precision and effectiveness. In this article we describe our design of a new multi-layer absorption method, which is based on the depth-dose curves method that can be used in most irradiation accelerators, and adds the Monte Carlo simulation and iterative algorithm in order to reconstruct the electron energy spectrum. In this article the energy spectrum was measured using these two methods, and good results were acquired. These results could be crosschecked, which made the results more reliable.

L. Kavitha, A. Muniyappan, S. Zdravković, M. V. Satarić, A. Marlewski, S. Dhamayanthi, D. Gopi
Chin. Phys. B, 2014, 23 (9): 098703 doi: 10.1088/1674-1056/23/9/098703
Full Text: [PDF 1971 KB] (35)
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Among many types of proteinaceous filaments, microtubules (MTs) constitute the most rigid components of the cellular cytoskeleton. Microtubule dynamics is essential for many vital cellular processes such as intracellular transport, metabolism, and cell division. We investigate the nonlinear dynamics of inhomogeneous microtubulin systems and the MT dynamics is found to be governed by a perturbed sine-Gordon equation. In the presence of various competing nonlinear inhomogeneities, it is shown that this nonlinear model can lead to the existence of kink and antikink solitons moving along MTs. We demonstrate kink-antikink pair collision in the framework of Hirota's bilinearization method. We conjecture that the collisions of the quanta of energy propagating in the form of kinks and antikinks may offer a new view of the mechanism of the retrograde and anterograde transport direction regulation of motor proteins in microtubulin systems.
Zhang Feng, Yan Bin, Li Lei, Xi Xiao-Qi, Jiang Hua
Chin. Phys. B, 2014, 23 (9): 098704 doi: 10.1088/1674-1056/23/9/098704
Full Text: [PDF 1136 KB] (5)
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The interior tomography is commonly met in practice, whereas the self-calibration method for geometric parameters remains far from explored. To determine the geometry of interior tomography, a modified interval subdividing based method, which was originally developed by Tan et al.,[11] was presented in this paper. For the self-calibration method, it is necessary to obtain the reconstructed image with only geometric artifacts. Therefore, truncation artifacts reduction is a key problem for the self-calibration method of an interior tomography. In the method, an interior reconstruction algorithm instead of the Feldkamp-Davis-Kress (FDK) algorithm was employed for truncation artifact reduction. Moreover, the concept of a minimum interval was defined as the stop criterion of subdividing to ensure the geometric parameters are determined nicely. The results of numerical simulation demonstrated that our method could provide a solution to the self-calibration for interior tomography while the original interval subdividing based method could not. Furthermore, real data experiment results showed that our method could significantly suppress geometric artifacts and obtain high quality images for interior tomography with less imaging cost and faster speed compared with the traditional geometric calibration method with a dedicated calibration phantom.
Wang Shuo, Zhang Xiao-Dan, Xiong Shao-Zhen, Zhao Ying
Chin. Phys. B, 2014, 23 (9): 098801 doi: 10.1088/1674-1056/23/9/098801
Full Text: [PDF 537 KB] (18)
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An improved method of fitting point-by-point is proposed to determine the absorption coefficient from infrared (IR) transmittance. With no necessity of empirical correction factors, the absorption coefficient can be accurately determined for the films with thin thicknesses. Based on this method, the structural properties of the hydrogenated amorphous silicon oxide materials (a-SiOx:H) are investigated. The oxygen-concentration-dependent variation of the Si-O-Si and the Si-H related modes in a-SiOx:H materials is discussed in detail.
Zhuo Zu-Liang, Wang Yong-Sheng, He Da-Wei, Fu Ming
Chin. Phys. B, 2014, 23 (9): 098802 doi: 10.1088/1674-1056/23/9/098802
Full Text: [PDF 697 KB] (7)
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The performance of P3HT:PCBM solar cells was improved by anode modification using spin-coated Tb(aca)3phen ultrathin films. The modification of the Tb(aca)3phen ultrathin film between the indium tin oxide (ITO) anode and the PEDOT:PSS layer resulted in a maximum power conversion efficiency (PCE) of 2.99% compared to 2.66% for the reference device, which was due to the increase in the short-circuit current density (Jsc). The PCE improvement could be attributed to the short-wavelength energy utilization and the optimized morphology of the active layers. Tb(aca)3phen with its strong down-conversion luminescence properties is suitable for the P3HT:PCBM blend active layer, and the absorption region of the ternary blend films is extended into the near ultraviolet region. Furthermore, the crystallization and the surface morphology of P3HT:PCBM films were improved with the Tb(aca)3phen ultrathin film. The ultraviolent-visible absorption spectra, atomic force microscope (AFM), and X-ray diffraction (XRD) of the films were investigated. Both anode modification and short-wavelength energy utilization using Tb(aca)3phen in P3HT:PCBM solar cells led to about a 12% PCE increase.
Wang Liang-Shun, Wu Zhi-Hai
Chin. Phys. B, 2014, 23 (9): 098901 doi: 10.1088/1674-1056/23/9/098901
Full Text: [PDF 373 KB] (29)
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Inspired by the fact that in most existing swarm models of multi-agent systems the velocity of an agent can be infinite, which is not in accordance with the real applications, we propose a novel swarm model of multi-agent systems where the velocity of an agent is finite. The Lyapunov function method and LaSalle's invariance principle are employed to show that by using the proposed model all of the agents eventually enter into a bounded region around the swarm center and finally tend to a stationary state. Numerical simulations are provided to demonstrate the effectiveness of the theoretical results.
Liang Zong-Wen, Li Jian-Ping, Yang Fan, Athina Petropulu
Chin. Phys. B, 2014, 23 (9): 098902 doi: 10.1088/1674-1056/23/9/098902
Full Text: [PDF 1145 KB] (32)
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Community detection is a fundamental work to analyse the structural and functional properties of complex networks. The label propagation algorithm (LPA) is a near linear time algorithm to find a good community structure. Despite various subsequent advances, an important issue of this algorithm has not yet been properly addressed. Random update orders within the algorithm severely hamper the stability of the identified community structure. In this paper, we executed the basic label propagation algorithm on networks multiple times, to obtain a set of consensus partitions. Based on these consensus partitions, we created a consensus weighted graph. In this consensus weighted graph, the weight value of the edge was the proportion value that the number of node pairs allocated in the same cluster was divided by the total number of partitions. Then, we introduced consensus weight to indicate the direction of label propagation. In label update steps, by computing the mixing value of consensus weight and label frequency, a node adopted the label which has the maximum mixing value instead of the most frequent one. For extending to different networks, we introduced a proportion parameter to adjust the proportion of consensus weight and label frequency in computing mixing value. Finally, we proposed an approach named the label propagation algorithm with consensus weight (LPAcw), and the experimental results showed that the LPAcw could enhance considerably both the stability and the accuracy of community partitions.
GEOPHYSICS, ASTRONOMY, AND ASTROPHYSICS
Wang Jun, Sheng Zheng, Jiang Yu, Shi Han-Qing
Chin. Phys. B, 2014, 23 (9): 099401 doi: 10.1088/1674-1056/23/9/099401
Full Text: [PDF 462 KB] (12)
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To reconstruct the missing data of the total electron content (TEC) observations, a new method is proposed, which is based on the empirical orthogonal functions (EOF) decomposition and the value of eigenvalue itself. It is a self-adaptive EOF decomposition without any prior information needed, and the error of reconstructed data can be estimated. The interval quartering algorithm and cross-validation algorithm are used to compute the optimal number of EOFs for reconstruction. The interval quartering algorithm can reduce the computation time. The application of the data interpolating empirical orthogonal functions (DINEOF) method to the real data have demonstrated that the method can reconstruct the TEC map with high accuracy, which can be employed on the real-time system in the future work.
Ben Xun, Yi Hong-Liang, Tan He-Ping
Chin. Phys. B, 2014, 23 (9): 099501 doi: 10.1088/1674-1056/23/9/099501
Full Text: [PDF 413 KB] (10)
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The characteristics of the polarization must be considered for a complete and correct description of radiation transfer in a scattering medium. Observing and identifying the polarizition characteristics of the thermal emission of a hot semitransparent medium have a major significance to analyze the optical responses of the medium for different temperatures. In this paper, a Monte Carlo method is developed for polarzied radiative transfer in a semitransparent medium. There are mainly two kinds of mechanisms leading to polarization of light: specular reflection on the Fresnel boundary and scattering by particles. The determination of scattering direction is the key to solve polarized radiative transfer problem using the Monte Carlo method. An optimized rejection method is used to calculate the scattering angles. In the model, the treatment of specular reflection is also considered, and in the process of tracing photons, the normalization must be applied to the Stokes vector when scattering, reflection, or transmission occurs. The vector radiative transfer matrix (VRTM) is defined and solved using Monte Carlo strategy, by which all four Stokes elements can be determined. Our results for Rayleigh scattering and Mie scattering are compared well with published data. The accuracy of the developed Monte Carlo method is shown to be good enough for the solution to vector radiative transfer. Polarization characteristics of thermal emission in a hot semitransparent medium is investigated, and results show that the U and V parameters of Stokes vector are equal to zero, an obvious peak always appear in the Q curve instead of the I curve, and refractive index has a completely different effect on I from Q.
Wu Wu-Ming, Ning Yu, Ma Yan-Xing, Xi Fen-Jie, Xu Xiao-Jun
Chin. Phys. B, 2014, 23 (9): 099502 doi: 10.1088/1674-1056/23/9/099502
Full Text: [PDF 416 KB] (10)
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By means of numerical simulations, we analyze the scintillation characterization for multiple incoherent uplink Gaussian beams under weak fluctuations cases. Because truly independent beams are difficult to create, we present a more general but approximate model for the multiple of beams traveling through partially correlated paths. This model compares with wave-optics simulations and highlights the reduced correlation coefficient as the beam separation is increased. The scintillation index of three and six incoherent uplink Gaussian beams is also induced. The result shows that the scintillation index decreases with the increase of beams amount and beam separation. When the beams amount and strength of atmospheric turbulence are fixed, the reduction of scintillation index is affected by the ratio of beams separation and the Fried length. The corresponding physical mechanisms for the results are discussed.
Chin. Phys. B
 2014 2014 Vol.23 No.11  2014-09-10 2014 Vol.23 No.10  2014-08-26
﻿ Chin. Phys. B
 Accepts Note: The papers published below have been accepted by Chinese Physics B, and have not been assigned to issues. And they will continue to be available on this page until they are assigned to an issue.      >>> More
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null
Accept: 2013-11-07
Show Abstract
Present study reports the Magnetization and magnetrotransport properties of PrFe1-xNixO3 thin films grown by pulsed laser ablation technique on a LaAlO3 substrate. From DC M/H plots of these films, weak ferromagnetism or ferrimagnetism behavior are observed. With Ni substitution, reduction in saturation magnetization is also seen. With Ni doping, a variation in saturation field (Hs), coercive filed (Hc), Weiss temperature (?) and effective magnetic moment (peff) are seen. A small change of magnetroresitance with application of higher filed is observed. Various essential parameters like density of state (Nf) at Fermi level, Mott’s characteristic temperature (T0) and activation energy (Ea) in presence and in absence of magnetic field were calculated. The present observed magnetic properties are related to the change of Fe-O bond length (causing an overlap between the oxygen p orbital and iron d orbital) and as well as deviation of the Fe–O–Fe angle from 180°. Reduction of magnetic domains after Ni doping is also explored to explain the present observed magnetic behavior of the system. The impact on various transport properties in these thin films after doping indicates a distortion in the lattice structure and consequently on influence on single particle band width, due to stress-induced reduction in unit cell volume.
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[Manu ID:131408]    Existence of Hartmann layer in the peristalsis for Sisko fluid.

null
Accept: 2013-11-07
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Analytical solutions for the peristaltic flow of magneto hydrodynamic (MHD) Sisko fluid in a channel, under the effects of strong and weak magnetic fields, are presented. The governing non linear problem, for the strong magnetic field, is solved using the matched asymptotic expansion. The solution for the weak magnetic field is obtained using regular perturbation method. The main observation is the existence of Hartman boundary layer for the strong magnetic field at the location of the two plates of the channel. The thickness of the Hartmann boundary layer is determined analytically. The effects of strong magnetic field and the shear thinning parameter of the Sisko fluid on the velocity profile are presented graphically.
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null
Accept: 2013-11-07
Show Abstract
Transient coherent oscillation in a closed $\Lambda$ system by far-off resonant Raman fields was investigated theoretically. It has been found that the coherent superposition of ground states can be formed by the absorption even for initial maximal mixed ground states. The absorption oscillated with the period depending on two-photon detuning when the system was initially in a transparent state and the two-photon Raman detuning was suddenly changed. The amplitude of the absorption decays with the decay rate of the ground states, which is different from the case when laser lights are applied resonantly and can be used to measured the relaxation rate of the ground states.
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Accept: 2013-11-07
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The (e, 2e) triple differential cross sections of Neon and neonic ions (Z=11-14) 2s orbital were calculated using distorted-wave Born approximation in coplanar asymmetric geometry. The calculated results showed that, with the increase of nuclear charge number Z, the amplitude of triple differential cross sections decreased. The angle difference between binary peak position and the angle of momentum transfer gradually increased with the increase of nuclear charge Z, and a new structure appeared at ejected angle 90o<θ2<120o. Three kinds of collision processes were proposed to illustrate the formation mechanism of such collision peaks.
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null
Accept: 2013-11-07
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Hexagonal WO3 nanorods were fabricated by a facile hydrothermal process at 180 ?C using sodium tungstate and sodium chloride as starting materials. The morphology, structure and composition of the prepared nanorods were studied by scanning electron microscopy, X-ray diffraction spectroscopy, and energy dispersive spectroscopy. It is found that the agglomeration of the nanorods is strongly dependent on the PH value of the reaction solution. Uniform and isolated WO3 nanorods with diameter ranging from 100 – 150 nm and length up to several micrometers are obtained at PH = 2.5 and the nanorods were identified as hexagonal in phase structure. The sensing characteristics of WO3 nanorods sensor were obtained by measuring the dynamic response towards NO2 with a concentration in the range of 0.5 – 5 ppm and at a working temperature in the range of 25 – 250?C. The obtained WO3 nanorods sensors were found to exhibit opposite sensing behaviors depending on the working temperature. When exposed to oxidizing NO2 gas, the WO3 nanorods sensor behaves as n-type semiconductor as expected when the working temperature was higher than 50 ?C, whereas, it behaves as p-type semiconductor at room temperature. The origin of the n–to p-type transition is correlated with the formation of inversion layer at the surface of WO3 nanorods at room temperature. This finding is useful for making new room temperature NO2 sensors based on hexagonal WO3 nanorods.
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null
Accept: 2013-11-07
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Exploring new acoustic parameter is essential to develop the noninvasive imaging technique for the surgery of silicone oil tamponade. In this study, the acoustic nonlinearity parameter B/As of varied silicone oil samples (e.g. linear or hyper branched) are experimentally measured by using the modified thermodynamic method. The results show that: (1) when the concentration of the silicone oil with a molecular weight of is increased from 0.5g/100ml to 8g/100ml, the corresponding B/A value increases about 18%, but the velocity only increases by about 0.1%; and (2) when the molecular weight of the hyper branched silicone oil is enhanced from to , the B/A value increases by about 22%, while the acoustic velocity is only raised by about 0.2%. This study suggests that the B/A parameter of silicone oil is more sensitive to the change of its molecular structure than that of the acoustic velocity. Thus, B/A parameter might be utilized as an effective index for the development and optimization of the noninvasive imaging of the surgery of silicone oil tamponade.
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null
Accept: 2013-11-07
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Ge condensation processes of a sandwiched structure of Si/SiGe/Si on silicon-on-insulator (SOI) to form SiGe-on-insulator substrates (SGOI) were investigated. The non-homogeneity of SiGe on insulator was observed after a long time oxidation and annealing due to an increased consumption of silicon at the inflection points of the corrugated SiGe film morphology, which happened in the case of the rough surface morphology with lateral Si atoms diffusion to the inflection points of the corrugated SiGe film. The transmission electron microscopy measurements showed that the non-homogeneity SiGe layer exhibited a single crystalline nature with perfect atom lattice. Possible formation mechanisms of the non-homogeneity SiGe layer were presented by discussing the highly nonuniform oxidation rate that was spatially dependent during the Ge condensation processes. The results are of guiding significance to fabricate the SGOI by Ge condensation process.
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null
Accept: 2013-11-07
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Two-dimensional (2D) elliptical cylindrical invisible cloaks with multiple regions are designed based on the transformation optics and the complementary media theory. Multiple invisible cloak regions can be obtained by properly using compressed or folded transformation in each space layer. The constitutive parameter tensor expressions for each region have been obtained. The results of full wave simulations by using finite element software confirm the validity of the constitutive parameter tensor expressions. In addition, the parameters are relatively easier to be realized.
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EKREM AYDINER Deniz Han
Accept: 2013-11-07
Show Abstract
We numerically investigate thermal entanglement of the spins (1/2,1) and (1/2,1/2) in the three-mixed (1/2,1,1/2) anisotropic Heisenberg XXZ spin system on a simple triangular cell under an inhomogeneous magnetic field. We show that the external magnetic field induces strong plateau formation in pairwise thermal entanglement for fixed parameters of Hamiltonian in the case of the ferromagnetic and anti-ferromagnetic interactions. We also observe an unexpected critical point at finite temperature in the thermal entanglement of the spins (1/2,1) for antiferromagnetic case while the entanglement of the spins (1/2,1) for ferromagnetic case and the entanglement of the spins (1/2,1/2) for both ferromagnetic and antiferromagnetic cases almost decays exponentially to zero with increasing temperature. The critical point in entanglement of the spins (1/2,1) for antiferromagnetic case may be signature of the quantum phase transition at finite temperature.
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null
Accept: 2013-11-07
Show Abstract
In order to predict the actual quantity of non-bulk GaAs layers after long time of homoepitaxy on GaAs(001) by theoretical calculation, a half-terrace diffusion model based on thermodynamics is applied to calculate the ripening time of GaAs layers to form a flat morphology in annealing. For verifying the accuracy of the calculation, real space STM images of GaAs surface after different annealing time are obtained and roughness of the GaAs surface is measured. The results suggest the half terrace model is an accurate method with a relative error of about 4.1%.
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null
Accept: 2013-11-07
Show Abstract
Thermal quantum and total correlations of two spin-1 Ising model in the presence of external homogeneous magnetic field and Dzyaloshinski-Moriya (DM) interaction are investigated. The result indicates that DM interaction plays a leading role in quantum correlation measured by measurement-induced disturbance except for the region with small value of DM interaction and low temperature, while DM interaction and external magnetic field play a competing role in negativity. Thermal total correlations measured by an alternative new measure defined in terms of Wigner-Yanase skew information and quantum mutual information display the difference in the same region.
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Accept: 2013-11-07
Show Abstract
The magnetism and work function Φ of Fe1-xGdx/Fe (001) films have been investigated using first-principles methods based on density functional theory. The calculated results reveal that Gd doping on the Fe (001) surface would greatly affect the geometrical structure of the system. The restruction of surface atoms leads to the transition of magnetic coupling between Gd and Fe atoms from ferromagnetic (FM) for 0.5≤x≤0.75 to antiferromagnetism (AFM) for x=1.0. For Fe1-xGdx/Fe (001) (x=0.25, 0.5, 0.75 and 1.0), the charge transfer from Gd to Fe leads to a positive dipole formed on the surface, which is responsible for the decrease of the work function. Moreover, it is found that the magnetic moments of Fe and Gd on the surface layer can be strongly influenced by Gd doping. The changes of the work function and magnetism for Fe1-xGdx/Fe (001) can be explained by the electron transfer, the magnetic coupling interaction between Gd and Fe atoms and the complex surface restruction. Our work strongly suggests that the doping of the metal with low work function is a promising way for modulating the work function of magnetic metal gate.
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Ha VanNguyen Wonkyeong Part NamTae Kim hanjung song
Accept: 2013-11-07
Show Abstract
This paper presents a compact and low-power-based discrete-time chaotic oscillator based on a carbon nanotube field-effect transistor implemented using Wong and Deng’s well-known model. The chaotic circuit is composed of a nonlinear circuit that creates an adjustable chaos map, two sample and hold cells for capture and delay functions, and a voltage shifter that works as a buffer and adjusts the output voltage for feedback. The operation of the chaotic circuit was verified with the SPICE software package, which used a supply voltage of 0.9 V at a frequency of 20 kHz. The time series, frequency spectra, transition in phase space, sensitivity with initial condition diagrams, and bifurcation phenomena are presented. The main advantage of this circuit is that its chaotic signal can be generated while dissipating approximately 7.8 μW of power, making it suitable for embedded systems where many chaos-signal generators are required on a single chip.
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null
Accept: 2013-11-07
Show Abstract
The advantages of blue InGaN based light-emitting diodes with GaN-AlGaN-InGaN last quantum barrier (LQB) is analyzed. It is found that the structure shows improved light output power, lower current leakage, higher recombination rate, and less efficiency droop over its conventional GaN LQB. Based on the numerical simulation and analysis, these improvements on the electrical and the optical characteristics are mainly attributed to the special designed GaN-AlGaN-InGaN LQB which enhances the electron confinement and improves the hole injection efficiency.
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Ai-Dong ZHU Yan-Qiang Ji Zhao Jin Hong-Fu WANG
Accept: 2013-11-07
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We propose the schemes for implementing hyperentangled state analysis and generating four-electron high entangled states, including the cluster state, $|\chi\rangle$ state, and symmetric Dicke state based on charge detection on free-electron. These schemes are deterministic only rely on charge detection and single-spin rotations. This method using noninteracting electrons is not only efficient but also saving in quantum resources.
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Guang-Chao(广超) Yin（尹） Lin-Hong(林红) Zhong(仲) Mei-Ling(美玲) Sun(孙) 俊凯 张 Xiao-Jun(晓君) Xie(谢) 日东 丛 Wei GAO Qi-Liang(啟良) Cui(崔)
Accept: 2013-11-07
Show Abstract
The lanthanum silicates La10Si6-xMgxO27-x (x= 0-0.4) have been prepared by solid state synthesis method to investigate the effect of Mg doping on crystal structure and ionic conductivity. Rietveld analysis of the powder XRD patterns reveals that Mg substitution on Si site results in the significant enlargement of channel triangles, which is favorable for oxide-ion conduction. Furthermore, the increase of Mg amount significantly influences the linear density of interstitial oxygen, which plays an important role on ionic conductivity. The Arrhenius plots of La10Si6-xMgxO27-x (x= 0-0.4) suggest that Mg doped samples present higher conductivity and lower activation energy than non doped La10Si6O27, and La10Si5.8Mg0.2O26.8 exhibits the highest conductivity with a value of 3.0×10-2 S cm-1 at 700 °C. Such conductive behavior agrees well with the refined results. The corresponding mechanism has been discussed in this paper。
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null
Accept: 2013-11-07
Show Abstract
We present a method to increase the sum-frequency (SF) outputs in the dielectric/Antiferromagnet(AF)/Ag sandwich structures for a fixed input power. Two incident waves simultaneously illuminate on the above surface, where one is oblique and the other is normal to it. The numerical calculations based on the SiO2/MnF2/Ag and ZnF2/MnF2/Ag structures show that the SF outputs on the upper film are increased a few times than those of a single AF film when the thickness of AF film is one quarter of the vacuum wavelength. And also, the SF outputs generated near the higher resonant frequency will be higher than those obtained near the lower resonant frequency. An optimum AF film thickness is achieved through investigating the effect of it in the two different dielectric sandwich structures on the SF outputs.
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null
Accept: 2013-11-07
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null
Accept: 2013-11-07
Show Abstract
High order energy preserving scheme for the strongly coupled nonlinear Schr\"{o}dinger system is proposed by the average vector field method. The high order energy preserving scheme is applied to simulate solitons evolution of the strongly coupled Schr\"{o}dinger system. Numerical results show that the high order energy preserving scheme can well simulate solitons evolution, moreover preserve the discrete energy of the strongly coupled nonlinear Schr\"{o}dinger system exactly.
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Accept: 2013-11-07
Show Abstract
In the present comments, we point out some major errors found in the above referenced paper.
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null
Accept: 2013-11-07
Show Abstract
In this paper, we propose an inverse method to determine the material parameters of transparent device without any knowledge of the corresponding transformation function. The required parameters are independently obtained and expressed as functions of introduced generator. Moreover, to remove the inhomogeneity and anisotropy of material parameters, layered transparent device composed of only homogeneous and isotropic materials is presented based on the effective medium theory. The feasibility of layered device in antenna protection is also investigated. Full-wave simulation is carried out for verification. This work paves a new way for designing metamaterial devices without specifying the underlying coordinate transformation, and has great guiding significance for the practical fabrication of transparent device.
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null
Accept: 2013-11-07
Show Abstract

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Chi Song Dong-Dong Li Yi-Chun Xu Bicai Pan changsong Liu
Accept: 2013-11-07
Show Abstract
Corrosion of steels in liquid metal lead (Pb) and bismuth (Bi) is a critical challenge in the development of accelerator driven systems (ADS). Using a first-principles method with slab model, we theoretically investigate the interaction between Pb (Bi) atom and the iron (Fe) (100) surface to assess fundamental corrosion properties. Our investigation demonstrates that both Pb and Bi atoms favorably adsorb on the (100) surface. Such adsorption decreases the energy required for the dissociation of an Fe atom from the surface, enhancing the dissolution tendency significantly. The segregation of six common alloying elements (Cr, Al, Mn, Ni, Nb and Si) to the surface and their impact on the corrosion properties are also considered. The present results reveal that Si seems to have relative good performance to stable the surface and alleviate the dissolving trend caused by Pb and Bi.
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null
Accept: 2013-11-07
Show Abstract
Nano-Ag incorporated hydroxyapatite/titania (HA/TiO2) coatings were deposited on the Ti6Al4V substrates by the plasma electrolytic oxidation process. Comparing with the Ti6Al4V substrate, the deposited coatings have attractive mechanical and biomedical properties. First, they perform stronger wear resistance and corrosion resistance. Second, the coatings perform strong antibacterial ability. The mean vitality of the P. gingivalis attaching on the coating surfaces can be reduced to about 21%. Third, the coatings perform good biocompatibility. It can increase the mean viability of the fibroblast cell attaching on the surface to about 130%. Based on the attractive properties, the Ag incorporated HA/TiO2 coatings may be useful in the biomedical field.
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[Manu ID:132355]    High-Power Terahertz Pulse Sensor with Overmoded Structure

Jianguo Wang
Accept: 2013-11-07
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Based on the hot electron effect in the semiconductor, an overmoded resistive sensor for 0.3~0.4 THz band has been investigated. The distribution of electromagnetic field components, voltage standing wave ratio (VSWR), and the average electric field in the silicon block are obtained by using the three-dimensional finite-difference time-domain (FDTD) method. By adjusting several factors, such as the length, width, height and specific resistance of the silicon block, a novel sensor with optimal structural parameters that can be used as a power measurement device for high power terahertz pulse directly is proposed. The results shows that the sensor has a sensitivity of about 0.24 kW-1, with a fluctuation of sensitivity is no more than ±22%, and the maximum of VSWR is 2.74 for 0.3~0.4 THz band.
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Ying-Hua Ji Ju-Ju HU
Accept: 2013-10-31
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We demonstrate the controllable generation of multi-photon Fock states in circuit QED. The external bias flux regulated by a counter can effectively adjust the bias time on each superconducting flux qubit so that each flux qubit can pass in turn through the circuit cavity and availably avoid the effects of decoherence. We further investigate the quantum correlation dynamics of coupling superconducting qubits in Fock state. The results reveal that the less the photon number of the light field in number state is, the stronger the interaction between qubits is, then more beneficial for maintaining entanglement between qubits.
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null
Accept: 2013-10-31
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Silver nanoparticle thin films with different average particle diameter were grown on silicon substrate. Then boron nitride thin films were deposited upon the silver nanoparticles interlayers by radio frequency magnetron sputtering. The boron nitride thin films were characterized by Fourier transform infrared spectrum. The average particle diameters of silver nanoparticle thin films were 121.6, 79.4 and 179.2 nm respectively. The results show that the size of the silver nanoparticles has an effect on the intensity of infrared spectra of boron nitride thin films. An enhanced infrared absorption was detected for boron nitride thin film to grow on silver nanoparticle thin films. This result is helpful to study growth mechanism of boron nitride thin films.
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Zhi-Min ZHANG
Accept: 2013-10-31
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This paper presents a new approach to determine the relative permittivity of periodic stratified medium using the iterative time reversal method. Based on transmission line theory, the focal peak value of iterative time reversal electromagnetic waves, which contains the information of the periodic stratified medium, is computed in pulse echo mode. Using the relationship between the focal peak value and the relative permittivity of the periodic stratified medium, the relative permittivity can be obtained by measuring the focal peak value. Numerical simulations are conducted and the results demonstrate the feasibility of the proposed approach for the measurement of relative permittivity of periodic stratified medium.
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null
Accept: 2013-10-31
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The effect of Iron Trichloride (FeCl3) on chemical mechanical polishing (CMP) of Ge2Sb2Te5 (GST) film has been investigated in this paper. The polishing rate of GST increases when the FeCl3 concentrations change from 0.01 wt % to 0.15 wt % comparing with 1 wt % H2O2. This polishing rate trends to be inversely correlated with contact angle between slurry with FeCl3 and the GST film surface. Thus, the hydrophilicity of the GST film surface is associated with the polishing rate during CMP. Atomic Force Microscope (AFM) and Optical Microscope (OM) were used to characterize the surface quality after CMP. The chemical mechanism was studied by potentiodynamic measurements such as Ecorr and Icorr to analyze chemical reaction between FeCl3 and GST surface. Finally, it is verified that slurry with FeCl3 has no influence on the electrical property of the post-CMP GST films by the Resistivity-Temperature (RT) tests.
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[Manu ID:131546]    Measures of genuine multipartite entanglement for graph states

null
Accept: 2013-10-31
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﻿ Chin. Phys. B
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Chin. Phys. B
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Cubature Kalman filters：Derivation and extension

Zhang Xin-Chun, Guo Cheng-Jun
2013, 22(12): 128401. Full Text: PDF (352KB) (7878)
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This paper focuses on the cubature Kalman filters (CKFs) for the nonlinear dynamic systems with additive process and measurement noise. As is well known, the heart of the CKF is the third-degree spherical–radial cubature rule which makes it possible to compute the integrals encountered in nonlinear filtering problems. However, the rule not only requires computing the integration over an n-dimensional spherical region, but also combines the spherical cubature rule with the radial rule, thereby making it difficult to construct higher-degree CKFs. Moreover, the cubature formula used to construct the CKF has some drawbacks in computation. To address these issues, we present a more general class of the CKFs, which completely abandons the spherical–radial cubature rule. It can be shown that the conventional CKF is a special case of the proposed algorithm. The paper also includes a fifth-degree extension of the CKF. Two target tracking problems are used to verify the proposed algorithm. The results of both experiments demonstrate that the higher-degree CKF outperforms the conventional nonlinear filters in terms of accuracy.
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Preparing Cu2ZnSnS4 films using the co-electro-deposition method with ionic liquids

Chen Yong-Sheng,Wang Ying-Jun,Li Rui,Gu Jin-Hua,Lu Jing-Xiao,Yang Shi-E
2012, 21(5): 058801. Full Text: PDF (12057KB) (7264)
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Cu2ZnSnS4 (CZTS) films are successfully prepared by co-electrodeposition in aqueous ionic solution and sulfurized in elemental sulfur vapor ambient at 400℃ for 30 min using nitrogen as the protective gas. It is found that the CZTS film synthesized at Cu/(Zn+Sn)=0.71 has a kesterite structure, a bandgap of about 1.51 eV, and an absorption coefficient of the order of 104 cm-1. This indicates that the co-electrodeposition method with aqueous ionic solution is a viable process for the growth of CZTS films for application in photovoltaic devices.
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Structural and electronic characteristics of pure and doped ZnO varistors

A. Sedky, E. El-Suheel
2012, 21(11): 116103. Full Text: PDF (18007KB) (6145)
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We report here structural, surface morphology, mechanical, and current-voltage characteristics of Zn1-xMxO ceramic samples with various x and M (0.00 ≤ x ≤ 0.20, M = Ni, Cu). It is found that the considered dopants do not influence the well-known peaks related to the wurtzite structure of ZnO ceramics, while the shapes and the sizes of grains are clearly affected. The average crystalline diameters deduced from the SEM micrographs are between 2.06 μ and 4.8 μ for all samples. The oxygen element ratio is increased by both dopants. Interestingly, the potential barrier can be formed by adding Cu up to 0.20, while it is completely deformed by 0.025 Ni addition. The breakdown field can be enhanced up to 4138 V/cm by 0.025 Cu addition, followed by a decrease with further increase of Cu up to 0.20. On the other hand, a gradual decrease in Vickers microhardness is reported for both dopants, and the values in the Ni samples are higher compared to those in the Cu samples. The electrical conductivity is generally improved by Ni, while the addition of Cu improves it only in the over doped region ( ≥ 0.10). These results are discussed in terms of the differences of valency and ferromagnetic ordering.
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Growth mechanism and photoluminescence of the SnO2 nanotwists on thin film and the SnO2 short nanowires on nanorods

Wang Bing, Xu Ping
2009, 18(1): 324-332. Full Text: PDF (13753KB) (5935)
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SnO2 nanotwists on thin film and SnO2 short nanowires on nanorods have been grown on single silicon substrates by using Au--Ag alloying catalyst assisted carbothermal evaporation of SnO2 and active carbon powders. The morphology and the structure of the prepared nanostructures are determined on the basis of field-emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM), selected area electronic diffraction (SAED), high-resolution transmission electron microscopy (HRTEM), x-ray diffraction (XRD), Raman and photoluminescence (PL) spectra analysis. The new peaks at 356, 450, and 489 nm in the measured PL spectra of two kinds of SnO2 nanostructures are observed, implying that more luminescence centres exist in these SnO2 nanostructures due to nanocrystals and defects. The growth mechanism of these nanostructures belongs to the vapour--liquid--solid (VLS) mechanism.
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Transfer function modeling and analysis of the open-loop Buck converter using the fractional calculus

Wang Fa-Qiang, Ma Xi-Kui
2013, 22(3): 030506. Full Text: PDF (457KB) (5486)
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Based on the fact that the real inductor and the real capacitor are fractional order in nature and the fractional calculus, the transfer function modeling and analysis of the open-loop Buck converter in continuous conduction mode (CCM) operation are carried out in this paper. The fractional order small signal model and the corresponding equivalent circuit of the open-loop Buck converter in CCM operation are presented. The transfer functions from the input voltage to the output voltage, from the input voltage to the inductor current, from the duty cycle to the output voltage, from the duty cycle to the inductor current, and the output impedance of the open-loop Buck converter in CCM operation are derived, and their bode diagrams and step responses are calculated, respectively. It is found that all the derived fractional order transfer functions of the system are influenced by the fractional orders of the inductor and the capacitor. Finally, the realization of the fractional order inductor and the fractional order capacitor is designed, and the corresponding PSIM circuit simulation results of the open-loop Buck converter in CCM operation are given to confirm the correctness of the derivations and the theoretical analysis.
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Solitons for a generalized variable-coefficient nonlinear Schrödinger equation

Wang Huan, Li Biao
2011, 20(4): 040203. Full Text: PDF (2324KB) (4485)
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In this paper, we investigate some exact soliton solutions for a generalized variable-coefficients nonlinear Schrödinger equation (NLS) with an arbitrary time-dependent linear potential which describes the dynamics of soliton solutions in quasi-one-dimensional Bose-Einstein condensations. Under some reasonable assumptions, one-soliton and two-soliton solutions are constructed analytically by the Hirota method. From our results, some previous one- and two-soliton solutions for some NLS-type equations can be recovered by some appropriate selection of the various parameters. Some figures are given to demonstrate some properties of the one- and the two-soliton and the discussion about the integrability property and the Hirota method is given finally.
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Some corrections to the Thomas–Fermi theory

Janusz Chrzanowski
2013, 22(8): 087101. Full Text: PDF (11289KB) (4098)
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In the presented model the wave function describing the electron is a superposition of contributions from individual components of the system, in the case of metals–lattice ions and in this sense refers not to a single electron, but rather to the system as a whole. An unconventional approach to the Schrödinger equation can provide a simple analytical relationship between the total energy of the electron and the wave number. This expression can directly determine the basic parameters such as Fermi radius, the screening radius or work function and also produce a graphical interpretation of the Fermi surface.

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Comparison of performance between bipolar and unipolar double-frequency sinusoidal pulse width modulation in a digitally controlled H-bridge inverter system

Lei Bo, Xiao Guo-Chun, Wu Xuan-Lü
2013, 22(6): 060509. Full Text: PDF (1177KB) (3836)
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By deriving the discrete-time models of a digitally controlled H-bridge inverter system modulated by bipolar sinusoidal pulse width modulation (BSPWM) and unipolar double-frequency sinusoidal pulse width modulation (UDFSPWM) respectively, the performances of the two modulation strategies are analyzed in detail. The circuit parameters, used in this paper, are fixed. When the systems, modulated by BSPWM and UDFSPWM, have the same switching frequency, the stability boundaries of the two systems are the same. However, when the equivalent switching frequencies of the two systems are the same, the BSPWM modulated system is more stable than the UDFSPWM modulated system. In addition, a convenient method of establishing the discrete-time model of piecewise smooth system is presented. Finally, the analytical results are confirmed by circuit simulations and experimental measurements.
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Stability of operation versus temperature of a three-phase clock-driven chaotic circuit

Zhou Ji-Chao, Hyunsik Son, Namtae Kim, Han Jung Song
2013, 22(12): 120506. Full Text: PDF (3082KB) (3320)
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We evaluate the influence of temperature on the behavior of a three-phase clock-driven metal–oxide–semiconductor (MOS) chaotic circuit. The chaotic circuit consists of two nonlinear functions, a level shifter, and three sample and hold blocks. It is necessary to analyze a CMOS-based chaotic circuit with respect to variation in temperature for stability because the circuit is sensitive to the behavior of the circuit design parameters. The temperature dependence of the proposed chaotic circuit is investigated via the simulation program with integrated circuit emphasis (SPICE) using 0.6-μm CMOS process technology with a 5-V power supply and a 20-kHz clock frequency. The simulation results demonstrate the effects of temperature on the chaotic dynamics of the proposed chaotic circuit. The time series, frequency spectra, bifurcation phenomena, and Lyapunov exponent results are provided.
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Surface rumples and band gap reductions of cubic BaZrO3 (001) surface studied by means of first-principles calculations

Zhang Chao, Wang Chun-Lei, Li Ji-Chao, Yang Kun, Zhang Yan-Fei, Wu Qing-Zao
2008, 17(1): 274-280. Full Text: PDF (697KB) (3186)
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Electronic properties of the (001) surface of cubic BaZrO$_{3}$ with BaO and ZrO$_{2}$ terminations have been studied using first-principles calculations. Surface structure, partial density of states, band structure and surface energy have been obtained. We find that the largest relaxation appears in the first layer of atoms, and the relaxation of the BaO-terminated surface is larger than that of the ZrO$_{2}$-terminated surface. The surface rumpling of the BaO-terminated surface is also larger than that of the ZrO$_{2}$-terminated surface. Results of surface energy calculations reveal that the BaZrO$_{3}$ surface is likely to be more stable than the PbZrO$_{3}$ surface.
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