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Large linear magnetoresistance in a new Dirac material BaMnBi2
Yi-Yan Wang(王义炎), Qiao-He Yu(郁巧鹤), Tian-Long Xia(夏天龙)
Chin. Phys. B 2016, 25 (10): 107503
Analysis of the blackbody-radiation shift in an ytterbium optical lattice clock
Yi-Lin Xu(徐艺琳), Xin-Ye Xu(徐信业)
Chin. Phys. B 2016, 25 (10): 103202
The spin Hall effect in single-crystalline gold thin films
Dai Tian(田岱), Caigan Chen(陈才干), Hua Wang(王华), Xiaofeng Jin(金晓峰)
Chin. Phys. B 2016, 25 (10): 107201
Current Issue In Press Earlier Issues Topical Review Top Downloaded SCI Top Cited
  Chin. Phys. B--2016, Vol.25, No.10
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Large linear magnetoresistance in a new Dirac material BaMnBi2 Hot!

Yi-Yan Wang(王义炎), Qiao-He Yu(郁巧鹤), Tian-Long Xia(夏天龙)
Chin. Phys. B, 2016, 25 (10): 107503 doi: 10.1088/1674-1056/25/10/107503
Full Text: [PDF 10486 KB] (Downloads:165) RICH HTML
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Dirac semimetal is a class of materials that host Dirac fermions as emergent quasi-particles. Dirac cone-type band structure can bring interesting properties such as quantum linear magnetoresistance and large mobility in the materials. In this paper, we report the synthesis of high quality single crystals of BaMnBi2 and investigate the transport properties of the samples. BaMnBi2 is a metal with an antiferromagnetic transition at TN=288 K. The temperature dependence of magnetization displays different behavior from CaMnBi2 and SrMnBi2, which suggests the possible different magnetic structure of BaMnBi2. The Hall data reveals electron-type carriers and a mobility μ(5 K)=1500 cm2/V·s. Angle-dependent magnetoresistance reveals the quasi-two-dimensional (2D) Fermi surface in BaMnBi2. A crossover from semiclassical MR~H2 dependence in low field to MR~H dependence in high field, which is attributed to the quantum limit of Dirac fermions, has been observed in magnetoresistance. Our results indicate the existence of Dirac fermions in BaMnBi2.

GENERAL

An application of a combined gradient system to stabilize a mechanical system

Xiang-Wei Chen(陈向炜), Ye Zhang(张晔), Feng-Xiang Mei(梅凤翔)
Chin. Phys. B, 2016, 25 (10): 100201 doi: 10.1088/1674-1056/25/10/100201
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A gradient system and a skew-gradient system can be merged into a combined gradient system. The differential equations of the combined gradient system are established and its property is studied. If a mechanical system can be represented as a combined gradient system, the stability of the mechanical system can be studied by using the property of the combined gradient system. Some examples are given to illustrate the applications of the results.

Consensus for second-order multi-agent systems with position sampled data

Rusheng Wang(王如生), Lixin Gao(高利新), Wenhai Chen(陈文海), Dameng Dai(戴大蒙)
Chin. Phys. B, 2016, 25 (10): 100202 doi: 10.1088/1674-1056/25/10/100202
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In this paper, the consensus problem with position sampled data for second-order multi-agent systems is investigated. The interaction topology among the agents is depicted by a directed graph. The full-order and reduced-order observers with position sampled data are proposed, by which two kinds of sampled data-based consensus protocols are constructed. With the provided sampled protocols, the consensus convergence analysis of a continuous-time multi-agent system is equivalently transformed into that of a discrete-time system. Then, by using matrix theory and a sampled control analysis method, some sufficient and necessary consensus conditions based on the coupling parameters, spectrum of the Laplacian matrix and sampling period are obtained. While the sampling period tends to zero, our established necessary and sufficient conditions are degenerated to the continuous-time protocol case, which are consistent with the existing result for the continuous-time case. Finally, the effectiveness of our established results is illustrated by a simple simulation example.

Nonlinear radiation response of n-doped indium antimonide and indium arsenide in intense terahertz field

Jiao-Li Gong(龚姣丽), Jin-Song Liu(刘劲松), Zheng Chu(褚政), Zhen-Gang Yang(杨振刚), Ke-Jia Wang(王可嘉), Jian-Quan Yao(姚建铨)
Chin. Phys. B, 2016, 25 (10): 100203 doi: 10.1088/1674-1056/25/10/100203
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The nonlinear radiation responses of two different n-doped bulk semiconductors: indium antimonide (InSb) and indium arsenide (InAs) in an intense terahertz (THz) field are studied by using the method of ensemble Monte Carlo (EMC) at room temperature. The results show that the radiations of two materials generate about 2-THz periodic regular spectrum distributions under a high field of 100 kV/cm at 1-THz center frequency. The center frequencies are enhanced to about 7 THz in InSb, and only 5 THz in InAs, respectively. The electron valley occupancy and the percentage of new electrons excited by impact ionization are also calculated. We find that the band nonparabolicity and impact ionization promote the generation of nonlinear high frequency radiation, while intervalley scattering has the opposite effect. Moreover, the impact ionization dominates in InSb, while impact ionization and intervalley scattering work together in InAs. These characteristics have potential applications in up-convension of THz wave and THz nonlinear frequency multiplication field.

Terahertz-dependent identification of simulated hole shapes in oil—gas reservoirs

Ri-Ma Bao(宝日玛), Hong-Lei Zhan(詹洪磊), Xin-Yang Miao(苗昕扬), Kun Zhao(赵昆), Cheng-Jing Feng(冯程静), Chen Dong(董晨), Yi-Zhang Li(李羿璋), Li-Zhi Xiao(肖立志)
Chin. Phys. B, 2016, 25 (10): 100204 doi: 10.1088/1674-1056/25/10/100204
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Detecting holes in oil-gas reservoirs is vital to the evaluation of reservoir potential. The main objective of this study is to demonstrate the feasibility of identifying general micro-hole shapes, including triangular, circular, and square shapes, in oil-gas reservoirs by adopting terahertz time-domain spectroscopy (THz-TDS). We evaluate the THz absorption responses of punched silicon (Si) wafers having micro-holes with sizes of 20 μm-500 μm. Principal component analysis (PCA) is used to establish a model between THz absorbance and hole shapes. The positions of samples in three-dimensional spaces for three principal components are used to determine the differences among diverse hole shapes and the homogeneity of similar shapes. In addition, a new Si wafer with the unknown hole shapes, including triangular, circular, and square, can be qualitatively identified by combining THz-TDS and PCA. Therefore, the combination of THz-TDS with mathematical statistical methods can serve as an effective approach to the rapid identification of micro-hole shapes in oil-gas reservoirs.

The bound state solution for the Morse potential with a localized mass profile

S Miraboutalebi
Chin. Phys. B, 2016, 25 (10): 100301 doi: 10.1088/1674-1056/25/10/100301
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We investigate an analytical solution for the Schrödinger equation with a position-dependent mass distribution, with the Morse potential via Laplace transformations. We considered a mass function localized around the equilibrium position. The mass distribution depends on the energy spectrum of the state and the intrinsic parameters of the Morse potential. An exact bound state solution is obtained in the presence of this mass distribution.

Binding energy of the donor impurities in GaAs-Ga1-xAlxAs quantum well wires with Morse potential in the presence of electric and magnetic fields

Esra Aciksoz, Orhan Bayrak, Asim Soylu
Chin. Phys. B, 2016, 25 (10): 100302 doi: 10.1088/1674-1056/25/10/100302
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The behavior of a donor in the GaAs-Ga1-xAlxAs quantum well wire represented by the Morse potential is examined within the framework of the effective-mass approximation. The donor binding energies are numerically calculated for with and without the electric and magnetic fields in order to show their influence on the binding energies. Moreover, how the donor binding energies change for the constant potential parameters (De, re, and a) as well as with the different values of the electric and magnetic field strengths is determined. It is found that the donor binding energy is highly dependent on the external electric and magnetic fields as well as parameters of the Morse potential.

A novel scheme of hybrid entanglement swapping and teleportation using cavity QED in the small and large detuning regimes and quasi-Bell state measurement method

R Pakniat, M K Tavassoly, M H Zandi
Chin. Phys. B, 2016, 25 (10): 100303 doi: 10.1088/1674-1056/25/10/100303
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We outline a scheme for entanglement swapping based on cavity QED as well as quasi-Bell state measurement (quasi-BSM) methods. The atom-field interaction in the cavity QED method is performed in small and large detuning regimes. We assume two atoms are initially entangled together and, distinctly two cavities are prepared in an entangled coherent-coherent state. In this scheme, we want to transform entanglement to the atom-field system. It is observed that, the fidelities of the swapped entangled state in the quasi-BSM method can be compatible with those obtained in the small and large detuning regimes in the cavity QED method (the condition of this compatibility will be discussed). In addition, in the large detuning regime, the swapped entangled state is obtained by detecting and quasi-BSM approaches. In the continuation, by making use of the atom-field entangled state obtained in both approaches in a large detuning regime, we show that the atomic as well as field states teleportation with complete fidelity can be achieved.

Controlled remote preparation of an arbitrary four-qubit cluster-type state

Wei-Lin Chen(陈维林), Song-Ya Ma(马松雅), Zhi-Guo Qu(瞿治国)
Chin. Phys. B, 2016, 25 (10): 100304 doi: 10.1088/1674-1056/25/10/100304
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Two schemes are proposed to realize the controlled remote preparation of an arbitrary four-qubit cluster-type state via a partially entangled channel. We construct ingenious measurement bases at the sender's and the controller's locations, which play a decisive role in the proposed schemes. The success probabilities can reach 50% and 100%, respectively. Compared with the previous proposals, the success probabilities are independent of the coefficients of the entangled channel.

Parameter allocation of parallel array bistable stochastic resonance and its application in communication systems

Jian Liu(刘健), You-Guo Wang(王友国), Qi-Qing Zhai(翟其清), Jin Liu(刘进)
Chin. Phys. B, 2016, 25 (10): 100501 doi: 10.1088/1674-1056/25/10/100501
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In this paper, we propose a parameter allocation scheme in a parallel array bistable stochastic resonance-based communication system (P-BSR-CS) to improve the performance of weak binary pulse amplitude modulated (BPAM) signal transmissions. The optimal parameter allocation policy of the P-BSR-CS is provided to minimize the bit error rate (BER) and maximize the channel capacity (CC) under the adiabatic approximation condition. On this basis, we further derive the best parameter selection theorem in realistic communication scenarios via variable transformation. Specifically, the P-BSR structure design not only brings the robustness of parameter selection optimization, where the optimal parameter pair is not fixed but variable in quite a wide range, but also produces outstanding system performance. Theoretical analysis and simulation results indicate that in the P-BSR-CS the proposed parameter allocation scheme yields considerable performance improvement, particularly in very low signal-to-noise ratio (SNR) environments.

Demodulation of acoustic telemetry binary phase shift keying signal based on high-order Duffing system

Bing-Nan Yan(燕并男), Chong-Xin Liu(刘崇新), Jun-Kang Ni(倪骏康), Liang Zhao(赵亮)
Chin. Phys. B, 2016, 25 (10): 100502 doi: 10.1088/1674-1056/25/10/100502
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In order to grasp the downhole situation immediately, logging while drilling (LWD) technology is adopted. One of the LWD technologies, called acoustic telemetry, can be successfully applied to modern drilling. It is critical for acoustic telemetry technology that the signal is successfully transmitted to the ground. In this paper, binary phase shift keying (BPSK) is used to modulate carrier waves for the transmission and a new BPSK demodulation scheme based on Duffing chaos is investigated. Firstly, a high-order system is given in order to enhance the signal detection capability and it is realized through building a virtual circuit using an electronic workbench (EWB). Secondly, a new BPSK demodulation scheme is proposed based on the intermittent chaos phenomena of the new Duffing system. Finally, a system variable crossing zero-point equidistance method is proposed to obtain the phase difference between the system and the BPSK signal. Then it is determined that the digital signal transmitted from the bottom of the well is ‘0’ or ‘1’. The simulation results show that the demodulation method is feasible.

A novel color image encryption algorithm based on genetic recombination and the four-dimensional memristive hyperchaotic system

Xiu-Li Chai(柴秀丽), Zhi-Hua Gan(甘志华), Yang Lu(路杨), Miao-Hui Zhang(张苗辉), Yi-Ran Chen(陈怡然)
Chin. Phys. B, 2016, 25 (10): 100503 doi: 10.1088/1674-1056/25/10/100503
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Recently, many image encryption algorithms based on chaos have been proposed. Most of the previous algorithms encrypt components R, G, and B of color images independently and neglect the high correlation between them. In the paper, a novel color image encryption algorithm is introduced. The 24 bit planes of components R, G, and B of the color plain image are obtained and recombined into 4 compound bit planes, and this can make the three components affect each other. A four-dimensional (4D) memristive hyperchaotic system generates the pseudorandom key streams and its initial values come from the SHA 256 hash value of the color plain image. The compound bit planes and key streams are confused according to the principles of genetic recombination, then confusion and diffusion as a union are applied to the bit planes, and the color cipher image is obtained. Experimental results and security analyses demonstrate that the proposed algorithm is secure and effective so that it may be adopted for secure communication.

Quantitative measurement of hydroxyl radical (OH) concentration in premixed flat flame by combining laser-induced fluorescence and direct absorption spectroscopy

Shuang Chen(陈爽), Tie Su(苏铁), Zhong-Shan Li(李中山), Han-Chen Bai(白菡尘), Bo Yan(闫博), Fu-Rong Yang(杨富荣)
Chin. Phys. B, 2016, 25 (10): 100701 doi: 10.1088/1674-1056/25/10/100701
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An accurate and reasonable technique combining direct absorption spectroscopy and laser-induced fluorescence (LIF) methods is developed to quantitatively measure the concentrations of hydroxyl in CH4/air flat laminar flame. In our approach, particular attention is paid to the linear laser-induced fluorescence and absorption processes, and experimental details as well. Through measuring the temperature, LIF signal distribution and integrated absorption, spatially absolute OH concentrations profiles are successfully resolved. These experimental results are then compared with the numerical simulation. It is proved that the good quality of the results implies that this method is suitable for calibrating the OH-PLIF measurement in a practical combustor.
ATOMIC AND MOLECULAR PHYSICS

Calculations of the dynamic dipole polarizabilities for the Li+ ion

Yong-Hui Zhang(张永慧), Li-Yan Tang(唐丽艳), Xian-Zhou Zhang(张现周), Ting-Yun Shi(史庭云)
Chin. Phys. B, 2016, 25 (10): 103101 doi: 10.1088/1674-1056/25/10/103101
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The B-spline configuration-interaction method is applied into the investigations of dynamic dipole polarizabilities for the four lowest triplet states (23S, 33S, 23P, and 33P) of the Li+ ion. The accurate energies for the triplet states of n3S, n3P, and n3D, the dipole oscillator strengths for 23S(33S)→n3P, 23P(33P)→n3S, and 23P(33P)→n3D transitions, with the main quantum number n up to 10 are tabulated for references. The dynamic dipole polarizabilities for the four triplet states under a wide range of photon energy are also listed, which provide input data for analyzing the Stark shift of Li+ ion. Furthermore, the tune-out wavelengths in the range from 100 nm to 1.2 μm for the four triplet states, and the magic wavelengths in the range from 100 nm to 600 nm for the 23S→33S, 23S→23P, and 23S→33P transitions are determined accurately for the experimental design of the Li+ ion.

An ab initio investigation of vibrational, thermodynamic, and optical properties of Sc2AlC MAX compound

M A Ali, M T Nasir, M R Khatun, A K M A Islam, S H Naqib
Chin. Phys. B, 2016, 25 (10): 103102 doi: 10.1088/1674-1056/25/10/103102
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The structural vibrational, thermodynamical, and optical properties of potentially technologically important, weakly coupled MAX compound, Sc2AlC are calculated using density functional theory (DFT). The structural properties of Sc2AlC are compared with the results reported earlier. The vibrational, thermodynamical, and optical properties are theoretically estimated for the first time. The phonon dispersion curve is calculated and the dynamical stability of this compound is investigated. The optical and acoustic modes are observed clearly. We calculate the Helmholtz free energy (F), internal energy (E), entropy (S), and specific heat capacity (Cv) from the phonon density of states. Various optical parameters are also calculated. The reflectance spectrum shows that this compound has the potential to be used as an efficient solar reflector.

Low-lying electronic states of CuN calculated by MRCI method

Shu-Dong Zhang(张树东), Chao Liu(刘超)
Chin. Phys. B, 2016, 25 (10): 103103 doi: 10.1088/1674-1056/25/10/103103
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The high accuracy ab initio calculation method of multi-reference configuration interaction (MRCI) is used to compute the low-lying eight electronic states of CuN. The potential energy curves (PECs) of the X3Σ-, 13Π, 23Σ-, 13Δ, 11Δ, 11Σ-, 11Π, and 5Σ- in a range of R=0.1 nm-0.5 nm are obtained and they are goodly asymptotes to the Cu(2Sg )+N(4Su) and Cu(2Sg)+N(2Du) dissociation limits. All the possible vibrational levels, rotational constants, and spectral constants for the six bound states of X3Σ-, 13Π, 23Σ-, 11Δ, 11Σ-, and 11Π are obtained by solving the radial Schrödinger equation of nuclear motion with Le Roy provided Level8.0 program. Also the transition dipole moments from the ground state X3Σ- to the excited states 13Π and 23Σ- are calculated and the result indicates that the 23Σ--X3Σ - transition has much higher transition dipole moment than the 13Π-X3Σ- transition even though the 13Π state is much lower in energy than the 23Σ- state.

Effect of chloride introduction on the optical properties in Eu3+-doped fluorozirconate glasses

Han Jin(金含), Zhao-Jun Mo(莫兆军), Xiao-Song Zhang(张晓松), Lin-Lin Yuan(苑琳琳), Ming Yan(晏明), Lan Li(李岚)
Chin. Phys. B, 2016, 25 (10): 103201 doi: 10.1088/1674-1056/25/10/103201
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Fluorozirconate glass containing Eu3+ ions and chloride ions are prepared by a meltquenching method. The luminescence behavior of Eu3+ affected by Cl ions is investigated. With increasing Cl ion concentration, the luminous intensity of Eu3+ is significantly enhanced and the quantum efficiency of fluorozirconate glass is improved. Meanwhile, the intensity parameter Ω2 increases according to the Judd-Ofelt calculation, which indicates the decrease of local symmetry. The average lifetime of Eu3+ increases by introducing the Cl ions. Moreover, we find two kinds of sites for Eu3+ ions in a glass network by analyzing the fluorescence decay. The distribution of Eu3+ ions changes with increasing Cl ion concentration. In addition, the excessive Cl ions lead to the separation of the glass phase and the formation of the crystal phase, thus reducing the transmittance dramatically.

Analysis of the blackbody-radiation shift in an ytterbium optical lattice clock Hot!

Yi-Lin Xu(徐艺琳), Xin-Ye Xu(徐信业)
Chin. Phys. B, 2016, 25 (10): 103202 doi: 10.1088/1674-1056/25/10/103202
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We accurately evaluate the blackbody-radiation shift in a 171Yb optical lattice clock by utilizing temperature measurement and numerical simulation. In this work. three main radiation sources are considered for the blackbody-radiation shift, including the heated atomic oven, the warm vacuum chamber, and the room-temperature vacuum windows. The temperatures on the outer surface of the vacuum chamber are measured during the clock operation period by utilizing seven calibrated temperature sensors. Then we infer the temperature distribution inside the vacuum chamber by numerical simulation according to the measured temperatures. Furthermore, we simulate the temperature variation around the cold atoms while the environmental temperature is fluctuating. Finally, we obtain that the total blackbody-radiation shift is -1.289(7) Hz with an uncertainty of 1.25×10-17 for our 171Yb optical lattice clock. The presented method is quite suitable for accurately evaluating the blackbody-radiation shift of the optical lattice clock in the case of lacking the sensors inside the vacuum chamber.

Absorption of laser radiation in ultracold plasma

N Y Shaparev
Chin. Phys. B, 2016, 25 (10): 103203 doi: 10.1088/1674-1056/25/10/103203
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In this paper, we analyze the spectral behavior (optical thickness, shape and linewidth) of laser radiation absorption under the correlation heating of ions in an ultracold plasma. The Voigt formula is used to find the absorption coefficient. The spectral line width is shown to grow with time while the optical thickness reduces. Our modeling results are in good agreement with the experimental findings reported in the literature.
ELECTROMAGNETISM, OPTICS, ACOUSTICS, HEAT TRANSFER, CLASSICAL MECHANICS, AND FLUID DYNAMICS

Ultra-thin two-dimensional transmissive anisotropic metasurfaces for polarization filter and beam steering application

Wen-Long Guo(郭文龙), Guang-Ming Wang(王光明), Hai-Peng Li(李海鹏), Kun Zhang(张昆), Tong Cai(蔡通)
Chin. Phys. B, 2016, 25 (10): 104101 doi: 10.1088/1674-1056/25/10/104101
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We propose an anisotropic planar transmitting metasurface, which has the ability to manipulate orthogonally-polarized electromagnetic waves in the reflection and refraction modes respectively. The metasurface is composed of four layered rectangular patches spaced by three layered dielectric isolators each with a thickness of 0.15λ0 at 15 GHz. By tailoring the sizes of the patches, the metasurface functions as a band-stop filter for the y-polarzied wave and a band-pass filter for the x-polarized wave operating from 14 GHz to 16 GHz. Moreover the phases of the transmitting x-polarized wave can be modulated at about 15 GHz, which contributes to beam steering according to the general refraction law. Experimental results are in good accordance with the simulated ones, in which the reflection efficiency is almost 100% while the transmission efficiency of the x-polarized wave reaches 80% at 15 GHz. Besides, the transmitted x-polarized wave is effectively manipulated from 14 GHz to 16 GHz.

Two-dimensional atom localization induced by a squeezed vacuum

Fei Wang(王飞), Jun Xu(徐俊)
Chin. Phys. B, 2016, 25 (10): 104201 doi: 10.1088/1674-1056/25/10/104201
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A scheme of two-dimensional (2D) atom localization induced by a squeezed vacuum is proposed, in which the three-level V-type atoms interact with two classical standing-wave fields. It is found that when the environment is changed from an ordinary vacuum to a squeezed vacuum, the 2D atom localization is realized by detecting the position-dependent resonance fluorescence spectrum. For comparison, we demonstrate that the atom localization originating from the quantum interference effect is distinct from that induced by a squeezed vacuum. Furthermore, the combined effects of the squeezed vacuum and quantum interference are also discussed under appropriate conditions. The internal physical mechanism is analyzed in terms of dressed-state representation.

Photon bunching and anti-bunching with two dipole-coupled atoms in an optical cavity

Ya-Mei Zheng(郑雅梅), Chang-Sheng Hu(胡长生), Zhen-Biao Yang(杨贞标), Huai-Zhi Wu(吴怀志)
Chin. Phys. B, 2016, 25 (10): 104202 doi: 10.1088/1674-1056/25/10/104202
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We investigate the effect of the dipole-dipole interaction (DDI) on the photon statistics with two atoms trapped in an optical cavity driven by a laser field and subjected to cooperative emission. By means of the quantum trajectory analysis and the second-order correlation functions, we show that the photon statistics of the cavity transmission can be flexibly modulated by the DDI while the incoming coherent laser selectively excites the atom-cavity system's nonlinear Jaynes-Cummings ladder of excited states. Finally, we find that the effect of the cooperatively atomic emission can also be revealed by the numerical simulations and can be explained with a simplified picture. The DDI induced nonlinearity gives rise to highly nonclassical photon emission from the cavity that is significant for quantum information processing and quantum communication.

Quantum metrology with two-mode squeezed thermal state: Parity detection and phase sensitivity

Heng-Mei Li(李恒梅), Xue-Xiang Xu(徐学翔), Hong-Chun Yuan(袁洪春), Zhen Wang(王震)
Chin. Phys. B, 2016, 25 (10): 104203 doi: 10.1088/1674-1056/25/10/104203
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Based on the Wigner-function method, we investigate the parity detection and phase sensitivity in a Mach-Zehnder interferometer (MZI) with two-mode squeezed thermal state (TMSTS). Using the classical transformation relation of the MZI, we derive the input-output Wigner functions and then obtain the explicit expressions of parity and phase sensitivity. The results from the numerical calculation show that supersensitivity can be reached only if the input TMSTS have a large number photons.

Spontaneous emission from a microwave-driven four-level atom in an anisotropic photonic crystal

Jiang Li(姜丽), Ren-Gang Wan(万仁刚), Zhi-Hai Yao(姚治海)
Chin. Phys. B, 2016, 25 (10): 104204 doi: 10.1088/1674-1056/25/10/104204
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The spontaneous emission from a microwave-driven four-level atom embedded in an anisotropic photonic crystal is studied. Due to the modified density of state (DOS) in the anisotropic photonic band gap (PBG) and the coherent control induced by the coupling fields, spontaneous emission can be significantly enhanced when the position of the spontaneous emission peak gets close to the band gap edge. As a result of the closed-loop interaction between the fields and the atom, the spontaneous emission depends on the dynamically induced Autler-Townes splitting and its position relative to the PBG. Interesting phenomena, such as spectral-line suppression, enhancement and narrowing, and fluorescence quenching, appear in the spontaneous emission spectra, which are modulated by amplitudes and phases of the coherently driven fields and the effect of PBG. This theoretical study can provide us with more efficient methods to manipulate the atomic spontaneous emission.

Effects of annealing time on the structure, morphology and stress of gold-chromium bilayer film

Hong Zhang(张洪), Yun-Xia Jin(晋云霞), Hu Wang(王虎), Fang-Yu Kong(孔钒宇), Hao-Peng Huang(黄昊鹏), Yun Cui(崔云)
Chin. Phys. B, 2016, 25 (10): 104205 doi: 10.1088/1674-1056/25/10/104205
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In this work, a 200-nm-thick gold film with a 10-nm-thick chromium layer used as an adhesive layer is fabricated on fused silica by the electron beam evaporation method. The effects of annealing time at 300 ℃ on the structure, morphology and stress of the film are studied. We find that chromium could diffuse to the surface of the film by formatting a solid solution with gold during annealing. Meanwhile, chromium is oxidized on the surface and diffused downward along the grain grooves in the gold film. The various operant mechanisms that change the residual stresses of gold films for different annealing times are discussed.

Acoustic focusing through two layer annuluses in air

Yi-Jun Guan(管义钧), Hong-Xiang Sun(孙宏祥), Shu-Sen Liu(刘树森), Shou-Qi Yuan(袁寿其), Jian-Ping Xia(夏建平), Yong Ge(葛勇)
Chin. Phys. B, 2016, 25 (10): 104302 doi: 10.1088/1674-1056/25/10/104302
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We report an acoustic focusing lens composed of two-layer annuluses made of metal cylinders in air. We find that the cylindrical waves can be focused into a perfect point without diffraction in the centre of the annuluses, which arises from the Mie-resonance modes in the annuluses. The focusing frequencies are related to the size of the inner annulus, and the focusing effect can be applied to the annuluses with different shapes and incident positions. Interesting applications of the focusing lens in the acoustic beam splitter and directional transmitter with energy enhancement are further discussed.

Pseudopotential multi-relaxation-time lattice Boltzmann model for cavitation bubble collapse with high density ratio

Ming-Lei Shan(单鸣雷), Chang-Ping Zhu(朱昌平), Cheng Yao(姚澄), Cheng Yin(殷澄), Xiao-Yan Jiang(蒋小燕)
Chin. Phys. B, 2016, 25 (10): 104701 doi: 10.1088/1674-1056/25/10/104701
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The dynamics of the cavitation bubble collapse is a fundamental issue for the bubble collapse application and prevention. In the present work, the modified forcing scheme for the pseudopotential multi-relaxation-time lattice Boltzmann model developed by Li Q et al. [ Li Q, Luo K H and Li X J 2013 Phys. Rev. E 87 053301] is adopted to develop a cavitation bubble collapse model. In the respects of coexistence curves and Laplace law verification, the improved pseudopotential multi-relaxation-time lattice Boltzmann model is investigated. It is found that the thermodynamic consistency and surface tension are independent of kinematic viscosity. By homogeneous and heterogeneous cavitation simulation, the ability of the present model to describe the cavitation bubble development as well as the cavitation inception is verified. The bubble collapse between two parallel walls is simulated. The dynamic process of a collapsing bubble is consistent with the results from experiments and simulations by other numerical methods. It is demonstrated that the present pseudopotential multi-relaxation-time lattice Boltzmann model is applicable and efficient, and the lattice Boltzmann method is an alternative tool for collapsing bubble modeling.

Pattern formation in superdiffusion Oregonator model

Fan Feng(冯帆), Jia Yan(闫佳), Fu-Cheng Liu(刘富成), Ya-Feng He(贺亚峰)
Chin. Phys. B, 2016, 25 (10): 104702 doi: 10.1088/1674-1056/25/10/104702
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Pattern formations in an Oregonator model with superdiffusion are studied in two-dimensional (2D) numerical simulations. Stability analyses are performed by applying Fourier and Laplace transforms to the space fractional reaction-diffusion systems. Antispiral, stable turing patterns, and travelling patterns are observed by changing the diffusion index of the activator. Analyses of Floquet multipliers show that the limit cycle solution loses stability at the wave number of the primitive vector of the travelling hexagonal pattern. We also observed a transition between antispiral and spiral by changing the diffusion index of the inhibitor.

An acoustic Maxwell's fish-eye lens based on gradient-index metamaterials

Bao-guo Yuan(袁保国), Ye Tian(田野), Ying Cheng(程营), Xiao-jun Liu(刘晓峻)
Chin. Phys. B, 2016, 25 (10): 104301 doi: 10.1088/1674-1056/25/10/104301
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We have proposed a two-dimensional acoustic Maxwell's fish-eye lens by using the gradient-index metamaterials with space-coiling units. By adjusting the structural parameters of the units, the refractive index can be gradually varied, which is key role to design the acoustic fish-eye lens. As predicted by ray trajectories on a virtual sphere, the proposed lens has the capability to focus the acoustic wave irradiated from a point source at the surface of the lens on the diametrically opposite side of the lens. The broadband and low loss performance is further demonstrated for the lens. The proposed acoustic fish-eye lens is expected to have the potential applications in directional acoustic coupler or coherent ultrasonic imaging.
PHYSICS OF GASES, PLASMAS, AND ELECTRIC DISCHARGES

Bio-inspired optimization algorithms for optical parameter extraction of dielectric materials: A comparative study

Md Ghulam Saber, Kh Arif Shahriar, Ashik Ahmed, Rakibul Hasan Sagor
Chin. Phys. B, 2016, 25 (10): 105101 doi: 10.1088/1674-1056/25/10/105101
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Particle swarm optimization (PSO) and invasive weed optimization (IWO) algorithms are used for extracting the modeling parameters of materials useful for optics and photonics research community. These two bio-inspired algorithms are used here for the first time in this particular field to the best of our knowledge. The algorithms are used for modeling graphene oxide and the performances of the two are compared. Two objective functions are used for different boundary values. Root mean square (RMS) deviation is determined and compared.

Electronic transport of Lorentz plasma with collision and magnetic field effects

Chong Lv(吕冲), Feng Wan(弯峰), Mo-Ran Jia(贾默然), Zi-Liang Li(李子良), Hai-Bo Sang(桑海波), Bai-Song Xie(谢柏松)
Chin. Phys. B, 2016, 25 (10): 105201 doi: 10.1088/1674-1056/25/10/105201
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The electronic transverse transport of Lorentz plasma with collision and magnetic field effects is studied by solving the Boltzmann equation for different electron density distributions. For the Maxwellian distribution, it is shown that transport coefficients decrease as Ω increases, Ω is the ratio of an electron's magneto-cyclotron frequency to plasma collision frequency. It means that the electrons are possible to be highly collimated by a strong magnetic field. For the quasi-monoenergetic distribution with different widths, it is found that the transport coefficients decrease greatly as ε decreases. In particular when the width approaches to zero the transverse transport coefficients are hardly affected by the magnetic field and the minimal one is obtained. Results imply that the strong magnetic field and quasi-monoenergetic distribution are both beneficial to reduce the electronic transverse transport. This study is also helpful to understand the relevant problems of plasma transport in the background of the inertial confinement fusion.

K—P—Burgers equation in negative ion-rich relativistic dusty plasma including the effect of kinematic viscosity

A N Dev, M K Deka, J Sarma, D Saikia, N C Adhikary
Chin. Phys. B, 2016, 25 (10): 105202 doi: 10.1088/1674-1056/25/10/105202
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The stationary solution is obtained for the K-P-Burgers equation that describes the nonlinear propagations of dust ion acoustic waves in a multi-component, collisionless, un-magnetized relativistic dusty plasma consisting of electrons, positive and negative ions in the presence of charged massive dust grains. Here, the Kadomtsev-Petviashvili (K-P) equation, three-dimensional (3D) Burgers equation, and K-P-Burgers equations are derived by using the reductive perturbation method including the effects of viscosity of plasma fluid, thermal energy, ion density, and ion temperature on the structure of a dust ion acoustic shock wave (DIASW). The K-P equation predictes the existences of stationary small amplitude solitary wave, whereas the K-P-Burgers equation in the weakly relativistic regime describes the evolution of shock-like structures in such a multi-ion dusty plasma.

Effect of Bohm quantum potential in the propagation of ion-acoustic waves in degenerate plasmas

M M Hasan, M A Hossen, A Rafat, A A Mamun
Chin. Phys. B, 2016, 25 (10): 105203 doi: 10.1088/1674-1056/25/10/105203
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A theoretical investigation has been carried out on the propagation of the ion-acoustic (IA) waves in a relativistic degenerate plasma containing relativistic degenerate electron and positron fluids in the presence of inertial non-relativistic light ion fluid. The Korteweg-de Vries (K-dV), modified K-dV (mK-dV), and mixed mK-dV (mmK-dV) equations are derived by adopting the reductive perturbation method. In order to analyze the basic features (phase speed, amplitude, width, etc.) of the IA solitary waves (SWs), the SWs solutions of the K-dV, mK-dV, and mmK-dV are numerically analyzed. It is found that the degenerate pressure, inclusion of the new phenomena like the Fermi temperatures and quantum mechanical effects (arising due to the quantum diffraction) of both electrons and positrons, number densities, etc., of the plasma species remarkably change the basic characteristics of the IA SWs which are found to be formed either with positive or negative potential. The implication of our results in explaining different nonlinear phenomena in astrophysical compact objects, e.g., white dwarfs, neutron stars, etc., and laboratory plasmas like intense laser-solid matter interaction experiments, etc., are mentioned.

Influence of number and depth of magnetic mirror on Alfvénic gap eigenmode

Lei Chang(苌磊), Ning Hu(胡宁), Jianyao Yao(姚建尧)
Chin. Phys. B, 2016, 25 (10): 105204 doi: 10.1088/1674-1056/25/10/105204
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Alfvénic gap eigenmode (AGE) can eject energetic particles from confinement and thereby threaten the success of magnetically controlled fusion. A low-temperature plasma cylinder is a promising candidate to study this eigenmode, due to easy diagnostic access and simple geometry, and the idea is to arrange a periodic array of magnetic mirrors along the plasma cylinder and introduce a local defect to break the field periodicity. The present work validates this idea by reproducing a clear AGE inside a spectral gap, and more importantly details the influence of the number and depth (or modulation factor) of magnetic mirror on the characteristics of AGE. Results show that AGE is suppressed by other modes inside the spectral gap when the number of magnetic mirrors is below a certain value, which leads to a weakened Bragg's effect. The structure and frequency of AGE remain unchanged for a decreased number of magnetic mirrors, as long as this number is enough for the AGE formation. The width of spectral gap and decay constant (inverse of decay length) of AGE are linearly proportional to the depth of magnetic mirror, implying easier observation of AGE through a bigger mirror depth. The frequency of AGE shifts to a lower range with the depth increased, possibly due to the unfrozen plasma with field line and the invalidity of small-perturbation analysis. Nevertheless, it is exciting to find that the depth of field modulation can be increased to form AGE for a very limited number of magnetic mirrors. This is of particular interest for the experimental implementation of AGE on a low-temperature plasma cylinder with limited length.

LIF diagnostics of hydroxyl radical in a methanol containing atmospheric-pressure plasma jet

Mu-Yang Qian(钱沐杨), San-Qiu Liu(刘三秋), Xue-Kai Pei(裴学凯), Xin-Pei Lu(卢新培), Jia-Liang Zhang(张家良), De-Zhen Wang(王德真)
Chin. Phys. B, 2016, 25 (10): 105205 doi: 10.1088/1674-1056/25/10/105205
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In this paper, a pulsed-dc CH3OH/Ar plasma jet generated at atmospheric pressure is studied by laser-induced fluorescence (LIF) and optical emission spectroscopy (OES). A gas-liquid bubbler system is proposed to introduce the methanol vapor into the argon gas, and the CH3OH/Ar volume ratio is kept constant at about 0.1%. Discharge occurs in a 6-mm needle-to-ring gap in an atmospheric-pressure CH3OH/Ar mixture. The space-resolved distributions of OH LIF inside and outside the nozzle exhibit distinctly different behaviors. And, different production mechanisms of OH radicals in the needle-to-ring discharge gap and afterglow of plasma jet are discussed. Besides, the optical emission lines of carbonaceous species, such as CH, CN, and C2 radicals, are identified in the CH3OH/Ar plasma jet. Finally, the influences of operating parameters (applied voltage magnitude, pulse frequency, pulsewidth) on the OH radical density are also presented and analyzed.

Influence of dielectric materials on uniformity of large-area capacitively coupled plasmas for N2/Ar discharges

Ying-Shuang Liang(梁英爽), Yu-Ru Zhang(张钰如), You-Nian Wang(王友年)
Chin. Phys. B, 2016, 25 (10): 105206 doi: 10.1088/1674-1056/25/10/105206
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The effect of the dielectric ring on the plasma radial uniformity is numerically investigated in the practical 450-mm capacitively coupled plasma reactor by a two-dimensional self-consistent fluid model. The simulations were performed for N2/Ar discharges at the pressure of 300 Pa, and the frequency of 13.56 MHz. In the practical plasma treatment process, the wafer is always surrounded by a dielectric ring, which is less studied. In this paper, the plasma characteristics are systematically investigated by changing the properties of the dielectric ring, i.e., the relative permittivity, the thickness and the length. The results indicate that the plasma parameters strongly depend on the properties of the dielectric ring. As the ratio of the thickness to the relative permittivity of the dielectric ring increases, the electric field at the wafer edge becomes weaker due to the stronger surface charging effect. This gives rise to the lower N2+ ion density, flux and N atom density at the wafer edge. Thus the homogeneous plasma density is obtained by selecting optimal dielectric ring relative permittivity and thickness. In addition, we also find that the length of the dielectric ring should be as short as possible to avoid the discontinuity of the dielectric materials, and thus obtain the large area uniform plasma.

CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES

Static and dynamic properties of polymer brush with topological ring structures: Molecular dynamic simulation

Wu-Bing Wan(万吴兵), Hong-Hong Lv(吕红红), Holger Merlitz(候格), Chen-Xu Wu(吴晨旭)
Chin. Phys. B, 2016, 25 (10): 106101 doi: 10.1088/1674-1056/25/10/106101
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By defining a topological constraint value (rn), the static and dynamic properties of a polymer brush composed of moderate or short chains with different topological ring structures are studied using molecular dynamics simulation, and a comparison with those of linear polymer brush is also made. For the center-of-mass height of the ring polymer brush scaled by chain length hNν, there is no significant difference of exponent from that of a linear brush in the small topological constraint regime. However, as the topological constraint becomes stronger, one obtains a smaller exponent. It is found that there exists a master scaling power law of the total stretching energy scaled by chain length N for moderate chain length regime, Feneν, for ring polymer brushes, but with a larger exponent ν than 5/6, indicating an influence of topological constraint to the dynamic properties of the system. A topological invariant of free energy scaled by <c>5/4 is found.

Self-compliance multilevel storage characteristic in HfO2-based device

Xiao-Ping Gao(高晓平), Li-Ping Fu(傅丽萍), Chuan-Bing Chen(陈传兵), Peng Yuan(袁鹏), Ying-Tao Li(李颖弢)
Chin. Phys. B, 2016, 25 (10): 106102 doi: 10.1088/1674-1056/25/10/106102
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In this paper, the self-compliance bipolar resistive switching characteristic of an HfO2-based memory device with Ag/HfO2/Au structure for multilevel storage is investigated. By applying a positive voltage, the dual-step set processes corresponding to three stable resistance states are observed in the device. The multilevel switching characteristics can still be observed after 48 hours. In addition, the resistance values of all the three states show negligible degradation over 104 s, which may be useful for the applications in nonvolatile multilevel storage.

Tensile properties and microstructure of 2024 aluminum alloy subjected to the high magnetic field and external stress

Gui-Rong Li(李桂荣), Fei Xue(薛飞), Hong-Ming Wang(王宏明), Rui Zheng(郑瑞), Yi Zhu(朱弋), Qiang-Ze Chu(储强泽), Jiang-Feng Cheng(程江峰)
Chin. Phys. B, 2016, 25 (10): 106201 doi: 10.1088/1674-1056/25/10/106201
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In order to explore the dependence of plasticity of metallic material on a high magnetic field, the effects of the different magnetic induction intensities (H= 0 T, 0.5 T, 1 T, 3 T, and 5 T) and pulses number (N = 0, 10, 20, 30, 40, and 50) on tensile strength (σb) and elongation (δ) of 2024 aluminum alloy are investigated in the synchronous presences of a high magnetic field and external stress. The results show that the magnetic field exerts apparent and positive effects on the tensile properties of the alloy. Especially under the optimized condition of H*=1 T and N*=30, the σb and δ are 410 MPa and 17% that are enhanced by 9.3% and 30.8% respectively in comparison to those of the untreated sample. The synchronous increases of tensile properties are attributed to the magneto-plasticity effect on a quantum scale. That is, the magnetic field will accelerate the state conversion of radical pair generated between the dislocation and obstacles from singlet to the triplet state. The bonding energy between them is meanwhile lowered and the moving flexibility of dislocations will be enhanced. At H*=1 T and N*=30, the dislocation density is enhanced by 1.28 times. The relevant minimum grain size is 266.1 nm, which is reduced by 35.2%. The grain refining is attributed to the dislocation accumulation and subsequent dynamic recrystallization. The (211) and (220) peak intensities are weakened. It is deduced that together with the recrystallization, the fine grains will transfer towards the slip plane and contribute to the slipping deformation.

Dynamic behaviors of water contained in calcium—silicate—hydrate gel at different temperatures studied by quasi-elastic neutron scattering spectroscopy

Zhou Yi(易洲), Pei-Na Deng(邓沛娜), Li-Li Zhang(张丽丽), Hua Li(李华)
Chin. Phys. B, 2016, 25 (10): 106401 doi: 10.1088/1674-1056/25/10/106401
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The dynamic behaviors of water contained in calcium-silicate-hydrate (C-S-H) gel with different water content values from 10% to 30% (by weight), are studied by using an empirical diffusion model (EDM) to analyze the experimental data of quasi-elastic neutron scattering (QENS) spectra at measured temperatures ranging from 230 K to 280 K. In the study, the experimental QENS spectra with the whole Q-range are considered. Several important parameters including the bound/immobile water elastic coefficient A, the bound water index BWI, the Lorentzian with a half-width at half-maximum (HWHM) Γ1(Q) and Γ2(Q), the self-diffusion coefficients Dt1 and Dt2 of water molecules, the average residence times τ01 and τ02, and the proton mean squared displacement (MSD) <u2> are obtained. The results show that the QENS spectra can be fitted very well not only for small Q ( ≤ 1 Å-1) but also for large Q. The bound/immobile water fraction in a C-S-H gel sample can be shown by the fitted BWI. The distinction between bound/immobile and mobile water, which includes confined water and ultra-confined water, can be seen by the fitted MSD. All the MSD tend to be the smallest value below 0.25 Å2 (the MSD of bound/immobile water) as the Q increases to 1.9 Å-1, no matter what the temperature and water content are. Furthermore, by the abrupt changes of the fitted values of Dt1, τ01, and Γ1(Q), a crossover temperature at 250 K, namely the liquid-to-crystal-like transition temperature, can be identified for confined water in large gel pores (LGPs) and/or small gel pores (SGPs) contained in the C-S-H gel sample with 30% water content.

Radial transport dynamics studies of SMBI with a newly developed TPSMBI code

Ya-Hui Wang(王亚辉), Wen-Feng Guo(郭文峰), Zhan-Hui Wang(王占辉), Qi-Long Ren(任启龙), Ai-Ping Sun(孙爱萍), Min Xu(许敏), Ai-Ke Wang(王爱科), Nong Xiang(项农)
Chin. Phys. B, 2016, 25 (10): 106601 doi: 10.1088/1674-1056/25/10/106601
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In tokamak plasma fueling, supersonic molecule beam injection (SMBI) with a higher fueling efficiency and a deeper penetration depth than the traditional gas puffing method has been developed and widely applied to many tokamak devices. It is crucial to study the transport dynamics of SMBI to improve its fueling efficiency, especially in the high confinement regime. A new one-dimensional (1D) code of TPSMBI has also been developed recently based on a six-field SMBI model in cylindrical coordinate. It couples plasma density and heat radial transport equations together with neutral density transport equations for both molecules and atoms and momentum radial transport equations for molecules. The dominant particle collisional interactions between plasmas and neutrals, such as molecule dissociation, atom ionization and charge-exchange effects, are included in the model. The code is verified to be correct with analytical solutions and also benchmarked well with the trans-neut module of BOUT++ code. Time-dependent radial transport dynamics and mean profile evolution are studied during SMBI with the TPSMBI code in both slab and cylindrical coordinates. Along the SMBI path, plasma density increases due to particle fuelling, while plasma temperature decreases due to heat cooling. Being different from slab coordinate, the curvature effect leads to larger front densities of molecule and atom during SMBI in cylindrical coordinate simulation.

Effects of Si surficial structure on transport properties of La2/3Sr1/3MnO3 films

Xiao-Min Gu(顾晓敏), Wei Wang(王伟), Guo-Tai Zhou(周国泰), Kai-Ge Gao(高凯歌), Hong-Ling Cai(蔡宏灵), Feng-Ming Zhang(张凤鸣), Xiao-Shan Wu(吴小山)
Chin. Phys. B, 2016, 25 (10): 106701 doi: 10.1088/1674-1056/25/10/106701
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La2/3Sr1/3MnO3 films are deposited on (001) silicon substrates, in which the silicon surfaces have artificially been treated into the scallops-like, pyramid-like, and smooth polishing structure, by pulsed laser deposition. The magnetoresistances of the films on etched substrates under low applied field are very sensitive to the applied field, and much larger (14.3% for acid-etched, and 42.9% for alkali-etched) than that on the polished Si at 5 K. Zero-field-cooled and field-cooled magnetization behaviors are measured and analyzed. Remarkable upturn behaviors in temperature-dependent resistivity for all samples are observed at low temperature, which follows the Efros-Shkloskii variable range hopping law and the Arrhenius law. We believe that the rough surface may be useful in device design.

Thick c-BN films deposited by radio frequency magnetron sputtering in argon/nitrogen gas mixture with additional hydrogen gas

Yan Zhao(赵艳), Wei Gao(高伟), Bo Xu(徐博), Ying-Ai Li(李英爱), Hong-Dong Li(李红东), Guang-Rui Gu(顾广瑞), Hong Yin(殷红)
Chin. Phys. B, 2016, 25 (10): 106801 doi: 10.1088/1674-1056/25/10/106801
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The excellent physical and chemical properties of cubic boron nitride (c-BN) film make it a promising candidate for various industry applications. However, the c-BN film thickness restricts its practical applications in many cases. Thus, it is indispensable to develop an economic, simple and environment-friend way to synthesize high-quality thick, stable c-BN films. High-cubic-content BN films are prepared on silicon (100) substrates by radio frequency (RF) magnetron sputtering from an h-BN target at low substrate temperature. Adhesions of the c-BN films are greatly improved by adding hydrogen to the argon/nitrogen gas mixture, allowing the deposition of a film up to 5-μm thick. The compositions and the microstructure morphologies of the c-BN films grown at different substrate temperatures are systematically investigated with respect to the ratio of H2 gas content to total working gas. In addition, a primary mechanism for the deposition of thick c-BN film is proposed.

Optical absorption enhancement in slanted silicon nanocone hole arrays for solar photovoltaics

Shu-Yuan Zhang(张淑媛), Wen Liu(刘雯), Zhao-Feng Li(李兆峰), Min Liu(刘敏), Yu-Sheng Liu(刘雨生), Xiao-Dong Wang(王晓东), Fu-Hua Yang(杨富华)
Chin. Phys. B, 2016, 25 (10): 106802 doi: 10.1088/1674-1056/25/10/106802
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We investigate slanted silicon nanocone hole arrays as light absorbing structures for solar photovoltaics via simulation. With only 1-μm equivalent thickness, a maximum short-circuit current density of 34.9 mA/cm2 is obtained. Moreover, by adding an Ag mirror under the whole structure, a short-circuit current density of 37.9 mA/cm2 is attained. It is understood that the optical absorption enhancement mainly results from three aspects. First, the silicon nanocone holes provide a highly efficient antireflection effect. Second, after breaking the geometric symmetry, the slanted silicon nanocone hole supports more resonant absorption modes than vertical structures. Third, the Fabry-Perot resonance enhances the light absorption after adding an Ag mirror.

HfO2-based ferroelectric modulator of terahertz waves with graphene metamaterial

Ran Jiang(蒋然), Zheng-Ran Wu(吴正冉), Zu-Yin Han(韩祖银), Hyung-Suk Jung
Chin. Phys. B, 2016, 25 (10): 106803 doi: 10.1088/1674-1056/25/10/106803
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Tunable modulations of terahertz waves in a graphene/ferroelectric-layer/silicon hybrid structure are demonstrated at low bias voltages. The modulation is due to the creation/elimination of an extra barrier in Si layer in response to the polarization in the ferroelectric Si:HfO2 layer. Considering the good compatibility of HfO2 with the Si-based semiconductor process, the highly tunable characteristics of the graphene metamaterial device under ferroelectric effect open up new avenues for graphene-based high performance integrated active photonic devices compatible with the silicon technology.

CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES

Electronic structures and edge effects of Ga2S2 nanoribbons

Bao-Ji Wang(王宝基), Xiao-Hua Li(李晓华), Li-Wei Zhang(张利伟), Guo-Dong Wang(王国东), San-Hang Ke(柯三黄)
Chin. Phys. B, 2016, 25 (10): 107101 doi: 10.1088/1674-1056/25/10/107101
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Ab initio density functional theory calculations are carried out to predict the electronic properties and relative stability of gallium sulfide nanoribbons (Ga2S2-NRs) with either zigzag- or armchair-terminated edges. It is found that the electronic properties of the nanoribbons are very sensitive to the edge structure. The zigzag nanoribbons (Ga2S2-ZNRs) are ferromagnetic (FM) metallic with spin-polarized edge states regardless of the H-passivation, whereas the bare armchair ones (Ga2S2-ANRs) are semiconducting with an indirect band gap. This band gap exhibits an oscillation behavior as the width increases and finally converges to a constant value. Similar behavior is also found in H-saturated Ga2S2-ANRs, although the band gap converges to a larger value. The relative stabilities of the bare ANRs and ZNRs are investigated by calculating their binding energies. It is found that for a similar width the ANRs are more stable than the ZNRs, and both are more stable than some Ga2S2 nanoclusters with stable configurations.

Observation of trapped light induced by Dwarf Dirac-cone in out-of-plane condition for photonic crystals

Subir Majumder, Tushar Biswas, Shaymal K Bhadra
Chin. Phys. B, 2016, 25 (10): 107102 doi: 10.1088/1674-1056/25/10/107102
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Existence of out-of-plane conical dispersion for a triangular photonic crystal lattice is reported. It is observed that conical dispersion is maintained for a number of out-of-plane wave vectors (kz). We study a case where Dirac like linear dispersion exists but the photonic density of states is not vanishing, called Dwarf Dirac cone (DDC) which does not support localized modes. We demonstrate the trapping of such modes by introducing defects in the crystal. Interestingly, we find by k-point sampling as well as by tuning trapped frequency that such a conical dispersion has an inherent light confining property and it is governed by neither of the known wave confining mechanisms like total internal reflection, band gap guidance. Our study reveals that such a conical dispersion in a non-vanishing photonic density of states induces unexpected intense trapping of light compared with those at other points in the continuum. Such studies provoke fabrication of new devices with exciting properties and new functionalities.

New ordered MAX phase Mo2TiAlC2: Elastic and electronic properties from first-principles

M A Hadi, M S Ali
Chin. Phys. B, 2016, 25 (10): 107103 doi: 10.1088/1674-1056/25/10/107103
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First-principles computation on the basis of density functional theory (DFT) is executed with the CASTEP code to explore the structural, elastic, and electronic properties along with Debye temperature and theoretical Vickers' hardness of newly discovered ordered MAX phase carbide Mo2TiAlC2. The computed structural parameters are very reasonable compared with the experimental results. The mechanical stability is verified by using the computed elastic constants. The brittleness of the compound is indicated by both the Poisson's and Pugh's ratios. The new MAX phase is capable of resisting the pressure and tension and also has the clear directional bonding between atoms. The compound shows significant elastic anisotropy. The Debye temperature estimated from elastic moduli (B, G) is found to be 413.6 K. The electronic structure indicates that the bonding nature of Mo2TiAlC2 is a mixture of covalent and metallic with few ionic characters. The electron charge density map shows a strong directional Mo-C-Mo covalent bonding associated with a relatively weak Ti-C bond. The calculated Fermi surface is due to the low-dispersive Mo 4d-like bands, which makes the compound a conductive one. The hardness of the compound is also evaluated and a high value of 9.01 GPa is an indication of its strong covalent bonding.

First-principles studies of effects of interstitial boron and carbon on the structural, elastic, and electronic properties of Ni solution and Ni3Al intermetallics

Meng-Li Huang(黄梦礼), Chong-Yu Wang(王崇愚)
Chin. Phys. B, 2016, 25 (10): 107104 doi: 10.1088/1674-1056/25/10/107104
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The effects of boron and carbon on the structural, elastic, and electronic properties of both Ni solution and Ni3Al intermetallics are investigated using first-principles calculations. The results agree well with theoretical and experimental data from previous studies and are analyzed based on the density of states and charge density. It is found that both boron and carbon are inclined to occupy the Ni-rich interstices in Ni3Al, which gives rise to a cubic interstitial phase. In addition, the interstitial boron and carbon have different effects on the elastic moduli of Ni and Ni3Al. The calculation results for the G/B and Poisson's ratios further demonstrate that interstitial boron and carbon can both reduce the brittleness of Ni, thereby increasing its ductility. Meanwhile, boron can also enhance the ductility of the Ni3Al while carbon hardly has an effect on its brittleness or ductility.

Time-dependent evolution process of Sb2Te3 from nanoplates to nanorods and their Raman scattering properties

Xiu-Qing Meng(孟秀清), Ning Tang(汤宁), Mian-Zeng Zhong(钟绵增), Hui-Qun Ye(叶慧群), Yun-Zhang Fang(方允樟)
Chin. Phys. B, 2016, 25 (10): 107105 doi: 10.1088/1674-1056/25/10/107105
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High-quality Sb2Te3 nanostructures are synthesized by a simple hydrothermal method. The morphologies of the nanostructures change from hexagonal nanoplates to nanorods with the extension of growth time. Secondary nucleation is the dominant factor responsible for the change of the morphologies. Structural analyses indicate that all the obtained nanostructures are well crystallized. IR-active phonons are mainly observed in the Raman spectra of the nanoplates and nanorods. The slight deviations are observed in the Raman modes between the nanoplates and nanorods, which could originate from confinement effect in the nanostructures.

Modified model of gate leakage currents in AlGaN/GaN HEMTs

Yuan-Gang Wang(王元刚), Zhi-Hong Feng(冯志红), Yuan-Jie Lv(吕元杰), Xin Tan(谭鑫), Shao-Bo Dun(敦少博), Yu-Long Fang(房玉龙), Shu-Jun Cai(蔡树军)
Chin. Phys. B, 2016, 25 (10): 107106 doi: 10.1088/1674-1056/25/10/107106
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It has been reported that the gate leakage currents are described by Frenkel-Poole emission (FPE) model, at the temperatures higher than 250 K. However, the gate leakage currents of our passivated devices do not accord with the FPE model. Therefore, a modified FPE model is developed in which an additional leakage current, besides the gate (III), is added. Based on the samples with different passivations, the III caused by a large number of surface traps is separated from total gate currents, and is found to be linear with respect to (φB-Vg)0.5. Compared with these from the FPE model, the calculated results from the modified model agree well with the Ig-Vg measurements at temperatures ranging from 295 K to 475 K.

The spin Hall effect in single-crystalline gold thin films Hot!

Dai Tian(田岱), Caigan Chen(陈才干), Hua Wang(王华), Xiaofeng Jin(金晓峰)
Chin. Phys. B, 2016, 25 (10): 107201 doi: 10.1088/1674-1056/25/10/107201
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The spin Hall effect has been investigated in 10-nm-thick epitaxial Au (001) single crystal films via H-pattern devices, whose minimum characteristic dimension is about 40 nm. By improving the film quality and optimizing the in-plane geometry parameters of the devices, we explicitly extract the spin Hall effect contribution from the ballistic and bypass contribution which were previously reported to be dominating the non-local voltage. Furthermore, we calculate a lower limit of the spin Hall angle of 0.08 at room temperature. Our results indicate that the giant spin Hall effect in Au thin films is dominated not by the interior defects scattering, but by the surface scattering. Besides, our results also provide an additional experimental method to determine the magnitude of spin Hall angle unambiguously.

First-principles hybrid functional study of the electronic structure and charge carrier mobility in perovskite CH3NH3SnI3

Li-Juan Wu(伍丽娟), Yu-Qing Zhao(赵宇清), Chang-Wen Chen(陈畅文), Ling-Zhi Wang(王琳芝), Biao Liu(刘标), Meng-Qiu Cai(蔡孟秋)
Chin. Phys. B, 2016, 25 (10): 107202 doi: 10.1088/1674-1056/25/10/107202
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We calculate the electronic properties and carrier mobility of perovskite CH3NH3SnI3 as a solar cell absorber by using the hybrid functional method. The calculated result shows that the electron and hole mobilities have anisotropies with a large magnitude of 1.4×104 cm2·V-1·s-1 along the y direction. In view of the huge difference between hole and electron mobilities, the perovskite CH3NH3SnI3 can be considered as a p-type semiconductor. We also discover a relationship between the effective mass anisotropy and electronic occupation anisotropy. The above results can provide reliable guidance for its experimental applications in electronics and optoelectronics.

Design and experimental verification of a dual-band metamaterial filter

Hong-Yang Zhu(朱洪杨), Ai-Qin Yao(姚爱琴), Min Zhong(钟敏)
Chin. Phys. B, 2016, 25 (10): 107301 doi: 10.1088/1674-1056/25/10/107301
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In this paper, we present the design, simulation, and experimental verification of a dual-band free-standing metamaterial filter operating in a frequency range of 1 THz-30 THz. The proposed structure consists of periodically arranged composite air holes, and exhibits two broad and flat transmission bands. To clarify the effects of the structural parameters on both resonant transmission bands, three sets of experiments are performed. The first resonant transmission band shows a shift towards higher frequency when the side width w1 of the main air hole is increased. In contrast, the second resonant transmission band displays a shift towards lower frequency when the side width w2 of the sub-holes is increased, while the first resonant transmission band is unchanged. The measured results indicate that these resonant bands can be modulated individually by simply optimizing the relevant structural parameters (w1 or w2) for the required band. In addition, these resonant bands merge into a single resonant band with a bandwidth of 7.7 THz when w1 and w2 are optimized simultaneously. The structure proposed in this paper adopts different resonant mechanisms for transmission at different frequencies and thus offers a method to achieve a dual-band and low-loss filter.

Resistive switching characteristic and uniformity of low-power HfOx-based resistive random access memory with the BN insertion layer

Shuai Su(苏帅), Xiao-Chuan Jian(鉴肖川), Fang Wang(王芳), Ye-Mei Han(韩叶梅), Yu-Xian Tian(田雨仙), Xiao-Yang Wang(王晓旸), Hong-Zhi Zhang(张宏智), Kai-Liang Zhang(张楷亮)
Chin. Phys. B, 2016, 25 (10): 107302 doi: 10.1088/1674-1056/25/10/107302
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In this letter, the Ta/HfOx/BN/TiN resistive switching devices are fabricated and they exhibit low power consumption and high uniformity each. The reset current is reduced for the HfOx/BN bilayer device compared with that for the Ta/HfOx/TiN structure. Furthermore, the reset current decreases with increasing BN thickness. The HfOx layer is a dominating switching layer, while the low-permittivity and high-resistivity BN layer acts as a barrier of electrons injection into TiN electrode. The current conduction mechanism of low resistance state in the HfOx/BN bilayer device is space-charge-limited current (SCLC), while it is Ohmic conduction in the HfOx device.

Transport properties of the topological Kondo insulator SmB6 under the irradiation of light

Guo-Bao Zhu(朱国宝), Hui-Min Yang(杨慧敏)
Chin. Phys. B, 2016, 25 (10): 107303 doi: 10.1088/1674-1056/25/10/107303
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In this paper, we study transport properties of the X point in the Brillouin zone of the topological Kondo insulator SmB6 under the application of a circularly polarized light. The transport properties at high-frequency regime and low-frequency regime as a function of the ratio (κ) of the Dresselhaus-like and Rashba-like spin-orbit parameter are studied based on the Floquet theory and Boltzmann equation respectively. The sign of Hall conductivity at high-frequency regime can be reversed by the ratio κ and the amplitude of the light. The amplitude of the current can be enhanced by the ratio κ. Our findings provide a way to control the transport properties of the Dirac materials at low-frequency regime.

Topological phase transition in a ladder of the dimerized Kitaev superconductor chains

Bo-Zhen Zhou(周博臻), Bin Zhou(周斌)
Chin. Phys. B, 2016, 25 (10): 107401 doi: 10.1088/1674-1056/25/10/107401
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We investigate the topological properties of a ladder model of the dimerized Kitaev superconductor chains. The topological class of the system is determined by the relative phase θ between the inter- and intra-chain superconducting pairing. One topological class is the class BDI characterized by the Z index, and the other is the class D characterized by the Z2 index. For the two different topological classes, the topological phase diagrams of the system are presented by calculating two different topological numbers, i.e., the Z index winding number W and the Z2 index Majorana number M, respectively. In the case of θ =0, the topological class belongs to the class BDI, multiple topological phase transitions accompanying the variation of the number of Majorana zero modes are observed. In the case of θ =π/2 it belongs to the class D. Our results show that for the given value of dimerization, the topologically nontrivial and trivial phases alternate with the variation of chemical potential.

Quantitative analysis of ammonium salts in coking industrial liquid waste treatment process based on Raman spectroscopy

Ya-Nan Cao(曹亚南), Gui-Shi Wang(王贵师), Tu Tan(谈图), Ting-Dong Cai(蔡廷栋), Kun Liu(刘锟), Lei Wang(汪磊), Gong-Dong Zhu(朱公栋), Jiao-Xu Mei(梅教旭)
Chin. Phys. B, 2016, 25 (10): 107403 doi: 10.1088/1674-1056/25/10/107403
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Quantitative analysis of ammonium salts in the process of coking industrial liquid waste treatment is successfully performed based on a compact Raman spectrometer combined with partial least square (PLS) method. Two main components (NH4SCN and (NH4)2S2O3) of the industrial mixture are investigated. During the data preprocessing, wavelet denoising and an internal standard normalization method are employed to improve the predicting ability of PLS models. Moreover, the PLS models with different characteristic bands for each component are studied to choose a best resolution. The internal and external calibration results of the validated model show a mass percentage error below 1% for both components. Finally, the repeatabilities and reproducibilities of Raman and reference titration measurements are also discussed.

Theory of specific heat of vortex liquid of high Tc superconductors

Chen Bai(白晨), Cheng Chi(迟诚), Jiangfan Wang(王江帆)
Chin. Phys. B, 2016, 25 (10): 107404 doi: 10.1088/1674-1056/25/10/107404
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Superconducting thermal fluctuation (STF) plays an important role in both thermodynamic and transport properties in the vortex liquid phase of high Tc superconductors. It was widely observed in the vicinity of the critical transition temperature. In the framework of Ginzburg-Landau-Lawrence-Doniach theory in magnetic field, a self-consistent analysis of STF including all Landau levels is given. Besides that, we calculate the contribution of STF to specific heat in vortex liquid phase for high Tc cuprate superconductors, and the fitting results are in good agreement with experimental data.

Controlled synthesis of ferromagnetic MnSex particles

Junjie Sun(孙俊杰), Chao Li(李超), Duo Chen(陈铎), Shishou Kang(康仕寿), Guolei Liu(刘国磊), Shuyun Yu(于淑云), Guangbing Han(韩广兵), Liangmo Mei(梅良模)
Chin. Phys. B, 2016, 25 (10): 107405 doi: 10.1088/1674-1056/25/10/107405
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The MnSex (x=1,2) nanoparticles were synthesized under hydrothermal condition, by reaction of the reduced selenium and Mn2+ ion in the presence of hydrazine and acetic acid. By precisely controlling the pH value of the solution, a series of MnSex particles were synthesized. The structure and morphology of as-prepared particles were examined with x-ray diffractometer (XRD), transmission electron microscopy (TEM), and scanning electron microscopy (SEM). The average sizes of as-prepared particles varied from nanoscale to microscale with pH value increase. Furthermore, the nucleation and growth mechanism associated with pH values were discussed, which can be applied to the hydrothermal synthesis of metal chalcogenide in general. Finally, the optical and magnetic properties of as-prepared particles were measured. All as-made particles exhibit a ferromagnetic behavior with low coercivity and remanence at room temperature.

Negative dependence of surface magnetocrystalline anisotropy energy on film thickness in Co33Fe67 alloy

De-Lai Wang(王得来), Ming-Qi Cui(崔明启), Dong-Liang Yang(杨栋亮), Jun-Cai Dong(董俊才), Wei Xu(徐伟)
Chin. Phys. B, 2016, 25 (10): 107501 doi: 10.1088/1674-1056/25/10/107501
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In this work, the magnetocrystalline anisotropy energy (MAE) on the surface of Fe33Co67 alloy film is extracted from x-ray magnetic linear dichroism (XMLD) experiments. The result indicates that the surface MAE value is negatively correlated with thickness. Through spectrum calculations and analysis, we find that besides the thickness effect, another principal possible cause may be the shape anisotropy resulting from the presence of interface roughness. These two factors lead to different electron structures on the fermi surface with different exchange fields, which produces different spin-orbit interaction anisotropies.

Effect of exchange interaction in ferromagnetic superlattices: A Monte Carlo study

R Masrour, A Jabar
Chin. Phys. B, 2016, 25 (10): 107502 doi: 10.1088/1674-1056/25/10/107502
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The Monte Carlo simulation is used to investigate the magnetic properties of ferromagnetic superlattices through the Ising model. The reduced critical temperatures of the ferromagnetic superlattices are studied each as a function of layer thickness for different values of exchange interaction. The exchange interaction in each layer within the interface and the crystal field in the unit cell are studied. The magnetic coercive fields and magnetization remnants are obtained for different values of exchange interaction, different values of temperature and crystal field with fixed values of physical parameters.

Structural and magnetic properties of turmeric functionalized CoFe2O4 nanocomposite powder

E Mehran, S Farjami Shayesteh, M Sheykhan
Chin. Phys. B, 2016, 25 (10): 107504 doi: 10.1088/1674-1056/25/10/107504
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The structural and magnetic properties of the synthesized pure and functionalized CoFe2O4 magnetic nanoparticles (NPs) are studied by analyzing the results from the x-ray diffraction (XRD), transmission electron microscopy (TEM), FT-IR spectroscopy, thermogravimetry (TG), and vibrating sample magnetometer (VSM). To extract the structure and lattice parameters from the XRD analysis results, we first apply the pseudo-Voigt model function to the experimental data obtained from XRD analysis and then the Rietveld algorithm is used in order to optimize the model function to estimate the true intensity values. Our simulated intensities are in good agreement with the experimental peaks, therefore, all structural parameters such as crystallite size and lattice constant are achieved through this simulation. Magnetic analysis reveals that the synthesized functionalized NPs have a saturation magnetization almost equal to that of pure nanoparticles (PNPs). It is also found that the presence of the turmeric causes a small reduction in coercivity of the functionalized NPs in comparison with PNP. Our TGA and FTIR results show that the turmeric is bonded very well to the surface of the NPs. So it can be inferred that a nancomposite (NC) powder of turmeric and nanoparticles is produced. As an application, the anti-arsenic characteristic of turmeric makes the synthesized functionalized NPs or NC powder a good candidate for arsenic removal from polluted industrial waste water.

Emergent ferroelectricity in disordered tri-color multilayer structure comprised of ferromagnetic manganites

Li-Wei Niu(牛利伟), Chang-Le Chen(陈长乐), Xiang-Lei Dong(董祥雷), Hui Xing(邢辉), Bing-Cheng Luo(罗炳成), Ke-Xin Jin(金克新)
Chin. Phys. B, 2016, 25 (10): 107701 doi: 10.1088/1674-1056/25/10/107701
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Multiferroic materials, showing the coexistence and coupling of ferroelectric and magnetic orders, are of great technological and fundamental importance. However, the limitation of single phase multiferroics with robust magnetization and polarization hinders the magnetoelectric effect from being applied practically. Magnetic frustration, which can induce ferroelectricity, gives rise to multiferroic behavior. In this paper, we attempt to construct an artificial magnetically frustrated structure comprised of manganites to induce ferroelectricity. A disordered stacking of manganites is expected to result in frustration at interfaces. We report here that a tri-color multilayer structure comprised of non-ferroelectric La0.9Ca0.1MnO3(A)/Pr0.85Ca0.15MnO3(B)/Pr0.85Sr0.15MnO3(C) layers with the disordered arrangement of ABC-ACB-CAB-CBA-BAC-BCA is prepared to form magnetoelectric multiferroics. The multilayer film exhibits evidence of ferroelectricity at room temperature, thus presenting a candidate for multiferroics.

Optoelectronic and thermoelectric properties of Zintl YLi3X2(X=Sb, Bi) compounds through modified Becke—Johnson potential

T Seddik, G Uğur, R Khenata, Ş Uğur, F Soyalp, G Murtaza, D P Rai, A Bouhemadou, S Bin Omran
Chin. Phys. B, 2016, 25 (10): 107801 doi: 10.1088/1674-1056/25/10/107801
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In the present work, we investigate the structural, optoelectronic and thermoelectric properties of the YLi3X2(X=Sb, Bi) compounds using the full potential augmented plane wave plus local orbital (FP-APW+lo) method. The exchange-correlation potential is treated with the generalized gradient approximation/local density approximation (GGA/LDA) and with the modified Becke-Johnson potential (TB-mBJ) in order to improve the electronic band structure calculations. In addition, the estimated ground state properties such as the lattice constants, external parameters, and bulk moduli agree well with the available experimental data. Our band structure calculations with GGA and LDA predict that both compounds have semimetallic behaviors. However, the band structure calculations with the GGA/TB-mBJ approximation indicate that the ground state of the YLi3Sb2 compound is semiconducting and has an estimated indirect band gap (Γ-L) of about 0.036 eV while the ground state of YLi3Bi2 compound is semimetallic. Conversely the LDA/TB-mBJ calculations indicate that both compounds exhibit semiconducting characters and have an indirect band gap (Γ-L) of about 0.15 eV and 0.081 eV for YLi3Sb and YLi3Bi2 respectively. Additionally, the optical properties reveal strong responses of the herein materials in the energy range between the IR and extreme UV regions. Thermoelectric properties such as thermal conductivity, electrical conductivity, Seebeck coefficient, and thermo power factors are also calculated.

Transient grating study of the intermolecular dynamics of liquid nitrobenzene

Hong-Lin Wu(吴红琳), Yun-Fei Song(宋云飞), Guo-Yang Yu(于国洋), Yan-Qiang Yang(杨延强)
Chin. Phys. B, 2016, 25 (10): 107802 doi: 10.1088/1674-1056/25/10/107802
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Femtosecond time-resolved transient grating (TG) technique is used to study the intermolecular dynamics in liquid phase. Non-resonant excitation of the sample by two crossing laser pulses results in a transient Kerr grating, and the molecular motion of liquid can be detected by monitoring the diffraction of a third time-delayed probe pulse. In liquid nitrobenzene (NB), three intermolecular processes are observed with lifetimes of 37.9±1.4 ps, 3.28±0.11 ps, and 0.44±0.03 ps, respectively. These relaxations are assigned to molecular orientational diffusion, dipole/induced dipole interaction, and libration in liquid cage, respectively. Such a result is slightly different from that obtained from OKE experiment in which the lifetime of the intermediate process is measured to be 1.9 ps. The effects of electric field on matter are different in TG and optical Kerr effect (OKE) experiments, which should be responsible for the difference between the results of these two types of experiments. The present work demonstrates that TG technique is a useful alternative in the study of intermolecular dynamics.

Effects of multiple interruptions with trimethylindium-treatment in the InGaN/GaN quantum well on green light emitting diodes

Liang Qiao(乔良), Zi-Guang Ma(马紫光), Hong Chen(陈弘), Hai-Yan Wu(吴海燕), Xue-Fang Chen(陈雪芳), Hao-Jun Yang(杨浩军), Bin Zhao(赵斌), Miao He(何苗), Shu-Wen Zheng(郑树文), Shu-Ti Li(李述体)
Chin. Phys. B, 2016, 25 (10): 107803 doi: 10.1088/1674-1056/25/10/107803
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In this study, the influence of multiple interruptions with trimethylindium (TMIn)-treatment in InGaN/GaN multiple quantum wells (MQWs) on green light-emitting diode (LED) is investigated. A comparison of conventional LEDs with the one fabricated with our method shows that the latter has better optical properties. Photoluminescence (PL) full-width at half maximum (FWHM) is reduced, light output power is much higher and the blue shift of electroluminescence (EL) dominant wavelength becomes smaller with current increasing. These improvements should be attributed to the reduced interface roughness of MQW and more uniformity of indium distribution in MQWs by the interruptions with TMIn-treatment.

Polaron effect on the optical rectification in spherical quantum dots with electric field

Zhen-Yu Feng(冯振宇), Zu-Wei Yan(闫祖威)
Chin. Phys. B, 2016, 25 (10): 107804 doi: 10.1088/1674-1056/25/10/107804
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The polaron effect on the optical rectification in spherical quantum dots with a shallow hydrogenic impurity in the presence of electric field is theoretically investigated by taking into account the interactions of the electrons with both confined and surface optical phonons. Besides, the interaction between impurity and phonons is also considered. Numerical calculations are presented for typical Zn1-xCdxSe/ZnSe material. It is found that the polaronic effect or electric field leads to the redshifted resonant peaks of the optical rectification coefficients. It is also found that the peak values of the optical rectification coefficients with the polaronic effect are larger than without the polaronic effect, especially for smaller Cd concentrations or stronger electric field.

Theoretical investigations of half-metallic ferromagnetism in new Half—Heusler YCrSb and YMnSb alloys using first-principle calculations

M Atif Sattar, Muhammad Rashid, M Raza Hashmi, S A Ahmad, Muhammad Imran, Fayyaz Hussain
Chin. Phys. B, 2016, 25 (10): 107402 doi: 10.1088/1674-1056/25/10/107402
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Structural, electronic, and magnetic properties of new predicted half-Heusler YCrSb and YMnSb compounds within the ordered MgAgAs C1b-type structure are investigated by employing first-principal calculations based on density functional theory. Through the calculated total energies of three possible atomic placements, we find the most stable structures regarding YCrSb and YMnSb materials, where Y, Cr(Mn), and Sb atoms occupy the (0.5, 0.5, 0.5), (0.25, 0.25, 0.25), and (0, 0, 0) positions, respectively. Furthermore, structural properties are explored for the non-magnetic and ferromagnetic and anti-ferromagnetic states and it is found that both materials prefer ferromagnetic states. The electronic band structure shows that YCrSb has a direct band gap of 0.78 eV while YMnSb has an indirect band gap of 0.40 eV in the majority spin channel. Our findings show that YCrSb and YMnSb materials exhibit half-metallic characteristics at their optimized lattice constants of 6.67 Å and 6.56 Å, respectively. The half-metallicities associated with YCrSb and YMnSb are found to be robust under large in-plane strains which make them potential contenders for spintronic applications.

Proper In deposition amount for on-demand epitaxy of InAs/GaAs single quantum dots

Xiang-Jun Shang(尚向军), Jian-Xing Xu(徐建星), Ben Ma(马奔), Ze-Sheng Chen(陈泽升), Si-Hang Wei(魏思航), Mi-Feng Li(李密峰), Guo-Wei Zha(查国伟), Li-Chun Zhang(张立春), Ying Yu(喻颖), Hai-Qiao Ni(倪海桥), Zhi-Chuan Niu(牛智川)
Chin. Phys. B, 2016, 25 (10): 107805 doi: 10.1088/1674-1056/25/10/107805
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The test-QD in-situ annealing method could surmount the critical nucleation condition of InAs/GaAs single quantum dots (SQDs) to raise the growth repeatability. Here, through many growth tests on rotating substrates, we develop a proper In deposition amount (θ) for SQD growth, according to the measured critical θ for test QD nucleation (θc). The proper ratio θ/θc, with a large tolerance of the variation of the real substrate temperature (Tsub), is 0.964-0.971 at the edge and >0.989 but <0.996 in the center of a 1/4-piece semi-insulating wafer, and around 0.9709 but <0.9714 in the center of a 1/4-piece N+ wafer as shown in the evolution of QD size and density as θ/θc varies. Bright SQDs with spectral lines at 905 nm-935 nm nucleate at the edge and correlate with individual 7 nm-8 nm-height QDs in atomic force microscopy, among dense 1 nm-5 nm-height small QDs with a strong spectral profile around 860 nm-880 nm. The higher Tsub in the center forms diluter, taller and uniform QDs, and very dilute SQDs for a proper θ/θc: only one 7-nm-hight SQD in 25 μm2. On a 2-inch (1 inch=2.54 cm) semi-insulating wafer, by using θ/θc = 0.961, SQDs nucleate in a circle in 22% of the whole area. More SQDs will form in the broad high-Tsub region in the center by using a proper θ/θc.
INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY

Atomic-layer-deposited Al2O3 and HfO2 on InAlAs: A comparative study of interfacial and electrical characteristics

Li-Fan Wu(武利翻), Yu-Ming Zhang(张玉明), Hong-Liang Lv(吕红亮), Yi-Men Zhang(张义门)
Chin. Phys. B, 2016, 25 (10): 108101 doi: 10.1088/1674-1056/25/10/108101
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Al2O3 and HfO2 thin films are separately deposited on n-type InAlAs epitaxial layers by using atomic layer deposition (ALD). The interfacial properties are revealed by angle-resolved x-ray photoelectron spectroscopy (AR-XPS). It is demonstrated that the Al2O3 layer can reduce interfacial oxidation and trap charge formation. The gate leakage current densities are 1.37×10-6 A/cm2 and 3.22×10-6A/cm2 at +1 V for the Al2O3/InAlAs and HfO2/InAlAs MOS capacitors respectively. Compared with the HfO2/InAlAs metal-oxide-semiconductor (MOS) capacitor, the Al2O3/InAlAs MOS capacitor exhibits good electrical properties in reducing gate leakage current, narrowing down the hysteresis loop, shrinking stretch-out of the C-V characteristics, and significantly reducing the oxide trapped charge (Qot) value and the interface state density (Dit).

Electric-field-dependent charge delocalization from dopant atoms in silicon junctionless nanowire transistor

Hao Wang(王昊), Wei-Hua Han(韩伟华), Xiao-Song Zhao(赵晓松), Wang Zhang(张望), Qi-Feng Lyu(吕奇峰), Liu-Hong Ma(马刘红), Fu-Hua Yang(杨富华)
Chin. Phys. B, 2016, 25 (10): 108102 doi: 10.1088/1674-1056/25/10/108102
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We study electric-field-dependent charge delocalization from dopant atoms in a silicon junctionless nanowire transistor by low-temperature electron transport measurement. The Arrhenius plot of the temperature-dependent conductance demonstrates the transport behaviors of variable-range hopping (below 30 K) and nearest-neighbor hopping (above 30 K). The activation energy for the charge delocalization gradually decreases due to the confinement potential of the conduction channel decreasing from the threshold voltage to the flatband voltage. With the increase of the source-drain bias, the activation energy increases in a temperature range from 30 K to 100 K at a fixed gate voltage, but decreases above the temperature of 100 K.

Phase transition of solid bismuth under high pressure

Hai-Yan Chen(陈海燕), Shi-Kai Xiang(向士凯), Xiao-Zhen Yan(颜小珍), Li-Rong Zheng(郑黎荣), Yi Zhang(张毅), Sheng-Gang Liu(刘盛刚), Yan Bi(毕延)
Chin. Phys. B, 2016, 25 (10): 108103 doi: 10.1088/1674-1056/25/10/108103
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As a widely used pressure calibrator, the structural phase transitions of bismuth from phase I, to phase II, to phase III, and then to phase V with increasing pressure at 300 K have been widely confirmed. However, there are different structural versions for phase III, most of which are determined by x-ray diffraction (XRD) technology. Using x-ray absorption fine structure (XAFS) measurements combined with ab initio calculations, we show that the proposed incommensurate composite structure of bismuth of the three configurations is the best option. An abnormal continuous increase of the nearest-neighbor distance of phase III with elevated pressure is also observed. The electronic structure transformation from semimetal to metal is responsible for the complex behavior of structure transformation.

Influence of secondary treatment with CO2 laser irradiation for mitigation site on fused silica surface

Yong Jiang(蒋勇), Qiang Zhou(周强), Rong Qiu(邱荣), Xiang Gao(高翔), Hui-Li Wang(王慧丽), Cai-Zhen Yao(姚彩珍), Jun-Bo Wang(王俊波), Xin Zhao(赵鑫), Chun-Ming Liu(刘春明), Xia Xiang(向霞), Xiao-Tao Zu(祖小涛), Xiao-Dong Yuan(袁晓东), Xin-Xiang Miao(苗心向)
Chin. Phys. B, 2016, 25 (10): 108104 doi: 10.1088/1674-1056/25/10/108104
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The ablation debris and raised rim, as well as residual stress and deep crater will be formed during the mitigation of damage site with a CO2 laser irradiation on fused silica surface, which greatly affects the laser damage resistance of optics. In this study, the experimental study combined with numerical simulation is utilized to investigate the effect of the secondary treatment on a mitigated site by CO2 laser irradiation. The results indicate that the ablation debris and the raised rim can be completely eliminated and the depth of crater can be reduced. Notable results show that the residual stress of the mitigation site after treatment will reduce two-thirds of the original stress. Finally, the elimination and the controlling mechanism of secondary treatment on the debris and raised rim, as well as the reasons for changing the profile and stress are analyzed. The results can provide a reference for the optimization treatment of mitigation sites by CO2 laser secondary treatment.

Particles inside electrolytes with ion-specific interactions, their effective charge distributions and effective interactions

Mingnan Ding(丁茗楠), Yihao Liang(梁逸浩), Xiangjun Xing(邢向军)
Chin. Phys. B, 2016, 25 (10): 108201 doi: 10.1088/1674-1056/25/10/108201
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In this work, we explore the statistical physics of colloidal particles that interact with electrolytes via ion-specific interactions. Firstly we study particles interacting weakly with electrolyte using linear response theory. We find that the mean potential around a particle is linearly determined by the effective charge distribution of the particle, which depends both on the bare charge distribution and on ion-specific interactions. We also discuss the effective interaction between two such particles and show that, in the far field regime, it is bilinear in the effective charge distributions of two particles. We subsequently generalize the above results to the more complicated case where particles interact strongly with the electrolyte. Our results indicate that in order to understand the statistical physics of non-dilute electrolytes, both ion-specific interactions and ionic correlations have to be addressed in a single unified and consistent framework.

Hydrodynamics of passing-over motion during binary droplet collision in shear flow

Cheng-Yao Wang(王程遥), Cheng-Bin Zhang(张程宾), Xiang-Yong Huang(黄庠永), Xiang-Dong Liu(刘向东), Yong-Ping Chen(陈永平)
Chin. Phys. B, 2016, 25 (10): 108202 doi: 10.1088/1674-1056/25/10/108202
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A combined experimental and numerical study is undertaken to investigate the hydrodynamic characteristics of single-phase droplet collision in a shear flow. The passing-over motion of interactive droplets is observed, and the underlying hydrodynamic mechanisms are elucidated by the analysis of the motion trajectory, transient droplet deformation and detailed hydrodynamic information (e.g., pressure and flow fields). The results indicate that the hydrodynamic interaction process under shear could be divided into three stages: approaching, colliding, and separating. With the increasing confinement, the interaction time for the passing-over process is shorter and the droplet processes one higher curvature tip and more stretched profile. Furthermore, the lateral separation Δy/R1 exhibits larger decrease in the approaching stage and the thickness of the lubrication film is decreased during the interaction. As the initial lateral separation increases, the maximum trajectory shift by the collision interaction is getting smaller. During the collision between two droplets with different sizes, the amplitude of the deformation oscillation of the larger droplet is decreased by reducing the size ratio of the smaller droplet to the bigger one.

Mode analysis and design of 0.3-THz Clinotron

Shuang Li(李爽), Jian-Guo Wang(王建国), Guang-Qiang Wang(王光强), Peng Zeng(曾鹏), Dong-Yang Wang(王东阳)
Chin. Phys. B, 2016, 25 (10): 108401 doi: 10.1088/1674-1056/25/10/108401
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To develop a high-power continuous-wave terahertz source, a Clinotron operating at 0.3 THz is investigated. Based on the analyses of field distribution and coupling impedance, the dispersion characteristic of a rectangular resonator is preliminarily studied. The effective way to select fundamental mode to interact with the electron beam is especially studied. Finally, the structure is optimized by particle-in-cell simulation, and the problems of manufacture tolerance, current density threshold, and heat dissipation during Clinotron's operation are also discussed. The optimum device can work with a good performance under the conditions of 8 kV and 60 mA. With the generation of signal frequency at 315.89 GHz and output power at 12 W on average, this device shows great prospects in the application of terahertz waves.

Physical modeling of direct current and radio frequency characteristics for InP-based InAlAs/InGaAs HEMTs

Shu-Xiang Sun(孙树祥), Hui-Fang Ji(吉慧芳), Hui-Juan Yao(姚会娟), Sheng Li(李胜), Zhi Jin(金智), Peng Ding(丁芃), Ying-Hui Zhong(钟英辉)
Chin. Phys. B, 2016, 25 (10): 108501 doi: 10.1088/1674-1056/25/10/108501
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Direct current (DC) and radio frequency (RF) performances of InP-based high electron mobility transistors (HEMTs) are investigated by Sentaurus TCAD. The physical models including hydrodynamic transport model, Shockley-Read-Hall recombination, Auger recombination, radiative recombination, density gradient model and high field-dependent mobility are used to characterize the devices. The simulated results and measured results about DC and RF performances are compared, showing that they are well matched. However, the slight differences in channel current and pinch-off voltage may be accounted for by the surface defects resulting from oxidized InAlAs material in the gate-recess region. Moreover, the simulated frequency characteristics can be extrapolated beyond the test equipment limitation of 40 GHz, which gives a more accurate maximum oscillation frequency (fmax) of 385 GHz.

Characteristics of cylindrical surrounding-gate GaAsxSb1-x/InyGa1-yAs heterojunction tunneling field-effect transistors

Yun-He Guan(关云鹤), Zun-Chao Li(李尊朝), Dong-Xu Luo(骆东旭), Qing-Zhi Meng(孟庆之), Ye-Fei Zhang(张也非)
Chin. Phys. B, 2016, 25 (10): 108502 doi: 10.1088/1674-1056/25/10/108502
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A III-V heterojunction tunneling field-effect transistor (TFET) can enhance the on-state current effectively, and GaAsxSb1-x/InyGa1-yAs heterojunction exhibits better performance with the adjustable band alignment by modulating the alloy composition. In this paper, the performance of the cylindrical surrounding-gate GaAsxSb1-x/InyGa1-yAs heterojunction TFET with gate-drain underlap is investigated by numerical simulation. We validate that reducing drain doping concentration and increasing gate-drain underlap could be effective ways to reduce the off-state current and subthreshold swing (SS), while increasing source doping concentration and adjusting the composition of GaAsxSb1-x/InyGa1-yAs can improve the on-state current. In addition, the resonant TFET based on GaAsxSb1-x/InyGa1-yAs is also studied, and the result shows that the minimum and average of SS reach 11 mV/decade and 20 mV/decade for five decades of drain current, respectively, and is much superior to the conventional TFET.

A two-dimensional analytical modeling for channel potential and threshold voltage of short channel triple material symmetrical gate Stack (TMGS) DG-MOSFET

Shweta Tripathi
Chin. Phys. B, 2016, 25 (10): 108503 doi: 10.1088/1674-1056/25/10/108503
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In the present work, a two-dimensional(2D) analytical framework of triple material symmetrical gate stack (TMGS) DG-MOSFET is presented in order to subdue the short channel effects. A lightly doped channel along with triple material gate having different work functions and symmetrical gate stack structure, showcases substantial betterment in quashing short channel effects to a good extent. The device functioning amends in terms of improved exemption to threshold voltage roll-off, thereby suppressing the short channel effects. The encroachments of respective device arguments on the threshold voltage of the proposed structure are examined in detail. The significant outcomes are compared with the numerical simulation data obtained by using two-dimensional (2D) ATLASTM device simulator to affirm and formalize the proposed device structure.

Photoresponse and trap characteristics of transparent AZO-gated AlGaN/GaN HEMT

Chong Wang(王冲), Meng-Di Zhao(赵梦荻), Yun-Long He(何云龙), Xue-Feng Zheng(郑雪峰), Kun Zhang(张坤), Xiao-Xiao Wei(魏晓晓), Wei Mao(毛维), Xiao-Hua Ma(马晓华), Jin-Cheng Zhang(张进成), Yue Hao(郝跃)
Chin. Phys. B, 2016, 25 (10): 108504 doi: 10.1088/1674-1056/25/10/108504
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AZO-gated and Ni/Au-gated AlGaN/GaN HEMTs are fabricated successfully, and an excellent transparency of AZO-gated electrode is achieved. After a negative gate bias stress acts on two kinds of the devices, their photoresponse characteristics are investigated by using laser sources with different wavelengths. The effect of photoresponse on AZO-gated electrode device is more obvious than on Ni/Au-gated electrodes device. The electrons are trapped in the AlGaN barrier of AZO-gated HEMT after it has experienced negative gate bias stress, and then the electrons can be excited effectively after it has been illuminated by the light with certain wavelengths. Furthermore, the trap state density DT and the time constant τT of the AZO-gated Schottky contact are extracted by fitting the measured parallel conductance in a frequency range from 10 kHz to 10 MHz. The constants of the trap range from about 0.35 μs to 20.35 μs, and the trap state density increased from 1.93×1013 eV-1·cm-2 at an energy of 0.33 eV to 3.07×1011 eV-1·cm-2 at an energy of 0.40 eV. Moreover, the capacitance and conductance measurements are used to characterize the trapping effects under different illumination conditions in AZO-gated HEMTs. Reduced deep trap states' density is confirmed under the illumination of short wavelength light.

Surface treatment on polyethylenimine interlayer to improve inverted OLED performance

Chang-Ting Wei(魏昌庭), Jin-Yong Zhuang(庄锦勇), Ya-Li Chen(陈雅丽), Dong-Yu Zhang(张东煜), Wen-Ming Su(苏文明), Zheng Cui(崔铮)
Chin. Phys. B, 2016, 25 (10): 108505 doi: 10.1088/1674-1056/25/10/108505
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Polyethylenimine (PEI) interlayer rinsing with different solvents for inverted organic light emitting diodes (OLEDs) is systematically studied in this paper. In comparison with the pristine one, the maximum current efficiency (CEmax) and power efficiency (PEmax) are enhanced by 21% and 22% for the device rinsing by ethylene glycol monomethyl ether (EEA). Little effect is found on the work function of the PEI interlayer rinsed by deionized water (DI), ethanol (EtOH), and EEA. On the other hand, the surface morphologies of PEI through different solvent treatments are quite different. Our results indicates that the surface morphology is the key to improving the device performance for IOLED as the work function of PEI keeps stable.

Optical nuclear spin polarization in quantum dots

Ai-Xian Li(李爱仙), Su-Qing Duan(段素青), Wei Zhang(张伟)
Chin. Phys. B, 2016, 25 (10): 108506 doi: 10.1088/1674-1056/25/10/108506
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Hyperfine interaction between electron spin and randomly oriented nuclear spins is a key issue of electron coherence for quantum information/computation. We propose an efficient way to establish high polarization of nuclear spins and reduce the intrinsic nuclear spin fluctuations. Here, we polarize the nuclear spins in semiconductor quantum dot (QD) by the coherent population trapping (CPT) and the electric dipole spin resonance (EDSR) induced by optical fields and ac electric fields. By tuning the optical fields, we can obtain a powerful cooling background based on CPT for nuclear spin polarization. The EDSR can enhance the spin flip-flop rate which may increase the cooling efficiency. With the help of CPT and EDSR, an enhancement of 1300 times of the electron coherence time can be obtained after a 10-ns preparation time.

Ultra-compact terahertz switch with graphene ring resonators

Jian-Zhong Sun(孙建忠), Le Zhang(章乐), Fei Gao(高飞)
Chin. Phys. B, 2016, 25 (10): 108701 doi: 10.1088/1674-1056/25/10/108701
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We propose and numerically demonstrate a compact terahertz wave switch which is composed of two graphene waveguides and three graphene ring resonators. Changing the bias voltage of the Fermi level in the center graphene ring, the resonant mode can be tuned when the plasmon waves in the waveguides and rings are coupled. We theoretically explain their mechanisms as being due to bias voltage change induced carrier density of graphene modification and the coupling coefficients of graphene plasmon effect after carrier density change, respectively. The mechanism of such a terahertz wave switch is further theoretically analyzed and numerically investigated with the aid of the finite element method. With an appropriate design, the proposed device offers the opportunity to ‘tune’ the terahertz wave ON-OFF with an ultra-fast, high extinction ratio and compact size. This structure has the potential applications in terahertz wave integrated circuits.

Elemental x-ray imaging using Zernike phase contrast

Qi-Gang Shao(邵其刚), Jian Chen(陈健), Faiz Wali, Yuan Bao(鲍园), Zhi-Li Wang(王志立), Pei-Ping Zhu(朱佩平), Yang-Chao Tian(田扬超), Kun Gao(高昆)
Chin. Phys. B, 2016, 25 (10): 108702 doi: 10.1088/1674-1056/25/10/108702
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We develop an element-specific x-ray microscopy method by using Zernike phase contrast imaging near absorption edges, where a real part of refractive index changes abruptly. In this method two phase contrast images are subtracted to obtain the target element: one is at the absorption edge of the target element and the other is near the absorption edge. The x-ray exposure required by this method is expected to be significantly lower than that of conventional absorption-based x-ray elemental imaging methods. Numerical calculations confirm the advantages of this highly efficient imaging method.

Device simulation of lead-free CH3NH3SnI3 perovskite solar cells with high efficiency

Hui-Jing Du(杜会静), Wei-Chao Wang(王韦超), Jian-Zhuo Zhu(朱键卓)
Chin. Phys. B, 2016, 25 (10): 108802 doi: 10.1088/1674-1056/25/10/108802
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The lead-free perovskite solar cells (PSCs) have drawn a great deal of research interest due to the Pb toxicity of the lead halide perovskite. CH3NH3SnI3 is a viable alternative to CH3NH3PbX3, because it has a narrower band gap of 1.3 eV and a wider visible absorption spectrum than the lead halide perovskite. The progress of fabricating tin iodide PSCs with good stability has stimulated the studies of these CH3NH3SnI3 based cells greatly. In the paper, we study the influences of various parameters on the solar cell performance through theoretical analysis and device simulation. It is found in the simulation that the solar cell performance can be improved to some extent by adjusting the doping concentration of the perovskite absorption layer and the electron affinity of the buffer and HTM, while the reduction of the defect density of the perovskite absorption layer significantly improves the cell performance. By further optimizing the parameters of the doping concentration (1.3×1016 cm-3) and the defect density (1×1015 cm-3) of perovskite absorption layer, and the electron affinity of buffer (4.0 eV) and HTM (2.6 eV), we finally obtain some encouraging results of the Jsc of 31.59 mA/cm2, Voc of 0.92 V, FF of 79.99%, and PCE of 23.36%. The results show that the lead-free CH3NH3SnI3 PSC is a potential environmentally friendly solar cell with high efficiency. Improving the Sn2+ stability and reducing the defect density of CH3NH3SnI3 are key issues for the future research, which can be solved by improving the fabrication and encapsulation process of the cell.

Pedestrian choice behavior analysis and simulation of vertical walking facilities in transfer station

Yong-Xing Li(李永行), Hong-Fei Jia(贾洪飞), Jun Li(李军), Ya-Nan Zhou(周亚楠), Zhi-Lu Yuan(原志路), Yan-Zhong Li(李延忠)
Chin. Phys. B, 2016, 25 (10): 108901 doi: 10.1088/1674-1056/25/10/108901
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Considering the interlayer height, luggage, the difference between queuing pedestrians, and walking speed, the pedestrian choice model of vertical walking facilities is established based on a support vector machine. This model is verified with the pedestrian flow data of Changchun light-rail transfer station and Beijing Xizhimen transfer station. Adding the pedestrian choice model of vertical walking facilities into the pedestrian simulation model which is based on cellular automata, the pedestrian choice behavior is simulated. In the simulation, the effects of the dynamic influence factors are analyzed. To reduce the conflicts between pedestrians in opposite directions, the layout of vertical walking facilities is improved. The simulations indicate that the improved layout of vertical walking facilities can improve the efficiency of pedestrians passing.

A new cellular automata model of traffic flow with negative exponential weighted look-ahead potential

Xiao Ma(马骁), Wei-Fan Zheng(郑伟范), Bao-Shan Jiang(江宝山), Ji-Ye Zhang(张继业)
Chin. Phys. B, 2016, 25 (10): 108902 doi: 10.1088/1674-1056/25/10/108902
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With the development of traffic systems, some issues such as traffic jams become more and more serious. Efficient traffic flow theory is needed to guide the overall controlling, organizing and management of traffic systems. On the basis of the cellular automata model and the traffic flow model with look-ahead potential, a new cellular automata traffic flow model with negative exponential weighted look-ahead potential is presented in this paper. By introducing the negative exponential weighting coefficient into the look-ahead potential and endowing the potential of vehicles closer to the driver with a greater coefficient, the modeling process is more suitable for the driver's random decision-making process which is based on the traffic environment that the driver is facing. The fundamental diagrams for different weighting parameters are obtained by using numerical simulations which show that the negative exponential weighting coefficient has an obvious effect on high density traffic flux. The complex high density non-linear traffic behavior is also reproduced by numerical simulations.

Asymmetric and symmetric meta-correlations in financial markets

Xiaohui Li(李晓辉), Xiangying Shen(沈翔瀛), Jiping Huang(黄吉平)
Chin. Phys. B, 2016, 25 (10): 108903 doi: 10.1088/1674-1056/25/10/108903
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In financial markets, the relation between fluctuations of stock prices and trading behaviors is complex. It is intriguing to quantify this kind of meta-correlation between market fluctuations and the synchronous behaviors. We refine the theoretical index leverage model proposed by Reigneron et al., to exactly quantify the meta-correlation under various levels of price fluctuations [Reigneron P A, Allez R and Bouchaud J P 2011 Physica A 390 3026]. The characteristics of meta-correlations in times of market losses, are found to be significantly different in Chinese and American financial markets. In addition, unlike the asymmetric results at the daily scale, the correlation behaviors are found to be symmetric at the high-frequency scale.

Subtle role of latency for information diffusion in online social networks

Fei Xiong(熊菲), Xi-Meng Wang(王夕萌), Jun-Jun Cheng(程军军)
Chin. Phys. B, 2016, 25 (10): 108904 doi: 10.1088/1674-1056/25/10/108904
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Information diffusion in online social networks is induced by the event of forwarding information for users, and latency exists widely in user spreading behaviors. Little work has been done to reveal the effect of latency on the diffusion process. In this paper, we propose a propagation model in which nodes may suspend their spreading actions for a waiting period of stochastic length. These latent nodes may recover their activity again. Meanwhile, the mechanism of forwarding information is also introduced into the diffusion model. Mean-field analysis and numerical simulations indicate that our model has three nontrivial results. First, the spreading threshold does not correlate with latency in neither homogeneous nor heterogeneous networks, but depends on the spreading and refractory parameter. Furthermore, latency affects the diffusion process and changes the infection scale. A large or small latency parameter leads to a larger final diffusion extent, but the intrinsic dynamics is different. Large latency implies forwarding information rapidly, while small latency prevents nodes from dropping out of interactions. In addition, the betweenness is a better descriptor to identify influential nodes in the model with latency, compared with the coreness and degree. These results are helpful in understanding some collective phenomena of the diffusion process and taking measures to restrain a rumor in social networks.

Comparision between Ga- and N-polarity InGaN solar cells with gradient-In-composition intrinsic layers

Lin Lu(鲁麟), Ming-Chao Li(李明潮), Chen Lv(吕琛), Wen-Gen Gao(高文根), Ming Jiang(江明), Fu-Jun Xu(许福军), Qi-Gong Chen(陈其工)
Chin. Phys. B, 2016, 25 (10): 108801 doi: 10.1088/1674-1056/25/10/108801
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Performances of Ga- and N-polarity solar cells (SCs) adopting gradient-In-composition intrinsic layer (IL) are compared. It is found the gradient ILs can greatly weaken the negative influence from the polarization effects for the Ga- polarity case, and the highest conversion efficiency (η) of 2.18% can be obtained in the structure with a linear increase of In composition in the IL from bottom to top. This is mainly attributed to the adsorptions of more photons caused by the higher In composition in the IL closer to the p-GaN window layer. In contrast, for the N-polarity case, the SC structure with an InGaN IL adopting fixed In composition prevails over the ones adopting the gradient-In-composition IL, where the highest η of 9.28% can be obtained at x of 0.62. N-polarity SC structures are proven to have greater potential preparations in high-efficient InGaN SCs.
Chin. Phys. B
Chin. Phys. B
2016 Vol.25      No.1      No.2      No.3      No.4      No.5      No.6
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2015 Vol.24      No.1      No.2      No.3      No.4      No.5      No.6
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2014 Vol.23      No.1      No.2      No.3      No.4      No.5      No.6
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2013 Vol.22      No.1      No.2      No.3      No.4      No.5      No.6
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2012 Vol.21      No.1      No.2      No.3      No.4      No.5      No.6
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2011 Vol.20      No.1      No.2      No.3      No.4      No.5      No.6
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2010 Vol.19      No.1      No.2      No.3      No.4      No.5      No.6
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2009 Vol.18      No.1      No.2      No.3      No.4      No.5      No.6
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2006 Vol.15      No.1      No.2      No.3      No.4      No.5      No.6
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2005 Vol.14      No.1      No.2      No.3      No.4      No.5      No.6
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2004 Vol.13      No.1      No.12      No.4      No.11      No.10      No.9
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2003 Vol.12      No.1      No.2      No.3      No.4      No.5      No.6
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2002 Vol.11      No.1      No.12      No.11      No.10      No.9      No.8
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2001 Vol.10      No.1      No.2      No.3      No.4      No.5      No.6
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2000 Vol.9      No.1      No.2      No.3      No.4      No.5      No.6
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1999 Vol.8      No.1      No.2      No.3      No.4      No.5      No.6
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1998 Vol.7      No.1      No.2      No.3      No.4      No.5      No.6
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1992 Vol.1      No.1      No.2      No.3
Chin. Phys. B
TOPICAL REVIEW — Physical research in liquid crystal
TOPICAL REVIEW — High pressure physics
TOPICAL REVIEW — Low-dimensional complex oxide structures
TOPICAL REVIEW — Fundamental physics research in lithium batteries
TOPICAL REVIEW — 8th IUPAP International Conference on Biological Physics
TOPICAL REVIEW — Interface-induced high temperature superconductivity
TOPICAL REVIEW — Silicene
TOPICAL REVIEW — III-nitride optoelectronic materials and devices
TOPICAL REVIEW — Precision measurement and cold matters
TOPICAL REVIEW — Ultrafast intense laser science
TOPICAL REVIEW — Magnetism, magnetic materials, and interdisciplinary research
INVITED REVIEW — International Conference on Nanoscience & Technology, China 2013
TOPICAL REVIEW — Statistical Physics and Complex Systems
TOPICAL REVIEW — Plasmonics and metamaterials
TOPICAL REVIEW — Iron-based high temperature superconductors
TOPICAL REVIEW — Quantum information
TOPICAL REVIEW — Low-dimensional nanostructures and devices
TOPICAL REVIEW — Topological insulator
中国物理B
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· A population-level model from the microscopic dynamics in Escherichia coli chemotaxis via Langevin approximation [2012, No.9:98701-098701] (48333)
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