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 Chin. Phys. B--2014, Vol.23, No.5
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TOPICAL REVIEW — Magnetism, magnetic materials, and interdisciplinary research
Yang Ce, Hou Yang-Long, Gao Song
Chin. Phys. B. 2014, 23 (5): 057505 doi: 10.1088/1674-1056/23/5/057505
Full Text: [PDF 1433 KB] (52)
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Nanomagnetism is the origin of many unique properties in magnetic nanomaterials that can be used as building blocks in information technology, spintronics, and biomedicine. Progresses in nanomagnetic principles, distinct magnetic nanostructures, and the biomedical applications of nanomagnetism are summarized.
Yang Fu-Jiang, Han Shi-Xuan, Xie Shi-Jie
Chin. Phys. B. 2014, 23 (5): 058106 doi: 10.1088/1674-1056/23/5/058106
Full Text: [PDF 1291 KB] (45)
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Recent progress in organic spintronics is given an informative overview, covering spin injection, detection, and transport in organic spin valve devices, and the magnetic field effect in organic semiconductors (OSCs). In particular, we focus on our own recent work in spin injection and the organic magnetic field effect (OMFE).
RAPID COMMUNICATION
Wang Ji-Wei, Cheng Ying, Liu Xiao-Jun
Chin. Phys. B. 2014, 23 (5): 054301 doi: 10.1088/1674-1056/23/5/054301
Full Text: [PDF 769 KB] (95)
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Extraordinary acoustic transmission (EAT) has been investigated in a tunable bull's eye structure. We demonstrate that the transmission coefficient of acoustic waves can be modulated by a grating structure. When the grating is located at a distance of 0.5 mm from the base plate, the acoustic transmission shows an 8.77-fold enhancement compared to that by using a traditional bull's eye structure. When the distance increases to 1.5 mm, the transmission approaches zero, indicating a total reflection. Thus, we can make an efficient modulation of acoustic transmission from 0 to 877%. The EAT effects have been ascribed to the coupling of structure-induced resonance with the diffractive wave and the waveguide modes, as well as the Fabry-Perot resonances. As a potential application, the modulation of far-field collimation is illustrated in the proposed bull's eye structure.

GENERAL
Wei Ting-Ting, Chen Xiao-Ping
Chin. Phys. B. 2014, 23 (5): 050201 doi: 10.1088/1674-1056/23/5/050201
Full Text: [PDF 553 KB] (18)
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We study the collective encirclement control problem of a multi-agent system in this paper, where the agents move collectively to encircle the multiple targets. An algorithm is proposed and a sufficient condition is derived to realize the collective encirclement motion. Some simulation results are provided to show the effectiveness of the obtained theoretical results.

Jiang Chao-Long, Sun Jian-Qiang
Chin. Phys. B. 2014, 23 (5): 050202 doi: 10.1088/1674-1056/23/5/050202
Full Text: [PDF 649 KB] (20)
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A high order energy preserving scheme for a strongly coupled nonlinear Schrödinger system is proposed by using the average vector field method. The high order energy preserving scheme is applied to simulate the soliton evolution of the strongly coupled Schrödinger system. Numerical results show that the high order energy preserving scheme can well simulate the soliton evolution, moreover, it preserves the discrete energy of the strongly coupled nonlinear Schrödinger system exactly.
Zhou Tong, Sun Di-Hua, Li Hua-Min, Liu Wei-Ning
Chin. Phys. B. 2014, 23 (5): 050203 doi: 10.1088/1674-1056/23/5/050203
Full Text: [PDF 2157 KB] (9)
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Based on the pioneering work of Konishi et al., in consideration of the influence of drivers' steady desired speed effect on the traffic flow, we develop a new coupled map car-following model in the real world. By use of the control theory, the stability condition of our model is derived. The validity of the present theoretical scheme is verified via numerical simulation, confirming the correctness of our theoretical analysis.

Zhang Guo-Ping, Zheng Kai-Min, Liu Shi-You, Hu Li-Yun
Chin. Phys. B. 2014, 23 (5): 050301 doi: 10.1088/1674-1056/23/5/050301
Full Text: [PDF 957 KB] (15)
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We introduce a kind of non-Gaussian entangled state, which can be obtained by operating a non-local coherent photon-subtraction operation on a two-mode squeezed vacuum. It is found that its normalization factor is only related to the Legendre polynomials, which is a compact expression. Its statistical properties are discussed by the negative region Wigner function with the analytical expression. As an application, the quantum teleportation for coherent states is considered by using the non-Gaussian state as an entangled channel. It is found that the teleportation fidelity can be enhanced by this non-Gaussian operation.

Jiang Zhu-Hui, Huang Si-Xun, You Xiao-Bao, Xiao Yi-Guo
Chin. Phys. B. 2014, 23 (5): 050302 doi: 10.1088/1674-1056/23/5/050302
Full Text: [PDF 538 KB] (11)
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Most studies of the synthetic aperture radar remote sensing of ocean internal waves are based on the solitary wave solutions of the Korteweg-de Vries (KdV) equation, and the dissipative term in the KdV equation is not taken into account. However, the dissipative term is very important, both in the synthetic aperture radar images and in ocean models. In this paper, the traveling-wave structure to characterize the ocean internal wave phenomenon is modeled, the results of numerical experiments are advanced, and a theoretical hypothesis of the traveling wave to retrieve the ocean internal wave parameters in the synthetic aperture radar images is introduced.

Wang Bao-Ping, Wang Ming-Jun, Wu Zhen-Sen, Li Ying-Le, Xiang Ning-Jing
Chin. Phys. B. 2014, 23 (5): 050303 doi: 10.1088/1674-1056/23/5/050303
Full Text: [PDF 370 KB] (6)
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Based on laser radar equations, a Doppler shift model of a laser pulse beam scattered by a rotating arbitrary convex target is reported in this paper. The boundary relations between an incident pulse beam and the detected area elements are analyzed by geometric methods. The Doppler shift characteristics of the rotating cone and cylinder are discussed and the difference between the laser pulse beam and the plane wave scattered from the same rotating target is compared accordingly. Numerical simulations show that the Doppler shift is tightly relevant to their dimensions, speeds, and so on. In the same incidence conditions, the pulse beam and plane wave have difference peak values and the same Doppler shift bandwidth. If the waist radius of the pulse beam is larger, the peak value is higher, and the Doppler shifts are proportional to the speed of the rotating target. By virtue of our theoretical model, we probe into the scattered characteristics of the Doppler shifts of a laser pulse beam, which would benefit target identification in national defense.

Qiu Liang, Ye Bin
Chin. Phys. B. 2014, 23 (5): 050304 doi: 10.1088/1674-1056/23/5/050304
Full Text: [PDF 5491 KB] (11)
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Thermal quantum and total correlations of a two spin-1 Ising model in the presence of an external homogeneous magnetic field and the Dzyaloshinski-Moriya (DM) interaction are investigated. The result indicates that the DM interaction plays a leading role in the quantum correlation measured by measurement-induced disturbance except for the region with small DM interaction and low temperature, while the DM interaction and the external magnetic field play competing roles in the negativity. The thermal total correlations measured by an alternative new measure defined in terms of the Wigner-Yanase skew information and the quantum mutual information display differences in the same region.

Seyit Deniz Han, Ekrem Aydiner
Chin. Phys. B. 2014, 23 (5): 050305 doi: 10.1088/1674-1056/23/5/050305
Full Text: [PDF 383 KB] (12)
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We numerically investigate the thermal entanglements of spins (1/2, 1) and spins (1/2, 1/2) in the three-mixed (1/2, 1, 1/2) anisotropic Heisenberg XXZ spin system on a simple triangular cell under an inhomogeneous magnetic field. We show that the external magnetic field induces strong plateau formation in the pairwise thermal entanglement for fixed parameters of the Hamiltonian in the cases of ferromagnetic and antiferromagnetic interactions. We also observe an unexpected critical point at finite temperature in the thermal entanglement of spins (1/2, 1) for the antiferromagnetic case, while the entanglement of spins (1/2, 1) in the ferromagnetic case and the entanglement of spins (1/2, 1/2) in both ferromagnetic and antiferromagnetic cases almost decay exponentially to zero with increasing temperature. The critical point in the entanglement of spins (1/2, 1) in the antiferromagnetic case may be a signature of the quantum phase transition at finite temperature.

Ji Yan-Qiang, Jin Zhao, Zhu Ai-Dong, Wang Hong-Fu, Zhang Shou
Chin. Phys. B. 2014, 23 (5): 050306 doi: 10.1088/1674-1056/23/5/050306
Full Text: [PDF 284 KB] (12)
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We propose the schemes for implementing hyperentangled state analysis and generating four-electron high entangled states (including cluster state, |χ> state, and symmetric Dicke state) based on the charge detection of free electrons. These schemes are deterministic and rely only on charge detection and single-spin rotations. This method, which uses noninteracting electrons, is not only efficient but also saves on quantum resources.

Tang Bao, Qin Hao, Zhang Rong, Liu Jin-Ming, Xue Peng
Chin. Phys. B. 2014, 23 (5): 050307 doi: 10.1088/1674-1056/23/5/050307
Full Text: [PDF 373 KB] (4)
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We present a scheme of quantum computing with charge qubits corresponding to one excess electron shared between dangling-bond pairs of surface silicon atoms that couple to a microwave stripline resonator on a chip. By choosing a certain evolution time, we propose the realization of a set of universal single- and two-qubit logical gates. Due to its intrinsic stability and scalability, the silicon dangling-bond charge qubit can be regarded as one of the most promising candidates for quantum computation. Compared to the previous schemes on quantum computing with silicon bulk systems, our scheme shows such advantages as a long coherent time and direct control and readout.

Zhou Lan
Chin. Phys. B. 2014, 23 (5): 050308 doi: 10.1088/1674-1056/23/5/050308
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We present a highly efficient entanglement concentration protocol (ECP) for a four-electron system in a less-entangled cluster state. In this ECP, we only require one pair of less-entangled electron cluster states and one ancillary electron to complete the task. With the help of the controlled-not (CNOT) gate, the concentrated maximally entangled state can be retained for further application with some success probability. On the other hand, the discarded items can be reused to obtain a high success probability. All the features make this ECP useful in the current quantum information field.

Guo Qun-Qun, Chen Xiao-Yu, Wang Yun-Yun
Chin. Phys. B. 2014, 23 (5): 050309 doi: 10.1088/1674-1056/23/5/050309
Full Text: [PDF 220 KB] (8)
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Graph states are special multipartite entangled states that have been proven useful in a variety of quantum information tasks. We address the issue of characterizing and quantifying the genuine multipartite entanglement of graph states up to eight qubits. The entanglement measures used are the geometric measure, the relative entropy of entanglement, and the logarithmic robustness, have been proved to be equal for the genuine entanglement of a graph state. We provide upper and lower bounds as well as an iterative algorithm to determine the genuine multipartite entanglement.

Shen Cheng-Gao, Zhang Guo-Feng, Fan Kai-Ming, Zhu Han-Jie
Chin. Phys. B. 2014, 23 (5): 050310 doi: 10.1088/1674-1056/23/5/050310
Full Text: [PDF 698 KB] (16)
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Quantum correlations measured by measurement-induced disturbance (MID) in a two-qubit Heisenberg XY spin model with Dzialoshinskii-Moriya (DM) interaction under intrinsic decoherence are investigated. MID is studied under various circumstances and the influences of the external dependencies on the final quantum state which has stable MID are discussed. Two kinds of initial quantum states are considered as well as different conclusions. MID appears to decay periodically during the processing of intrinsic decoherence; both DM interaction and intrinsic decoherence have a negative impact on the correlations. The MID of the stable state depends on several factors, except the parameter of the intrinsic decoherence. Moreover, we find a special initial state that is able to maintain the maximum quantum correlations during the processing of intrinsic decoherence.

Wang Gen-Fang, Lü Jian-Mei, Wang Lin-Cheng
Chin. Phys. B. 2014, 23 (5): 050311 doi: 10.1088/1674-1056/23/5/050311
Full Text: [PDF 616 KB] (3)
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We study the entanglement evolution in a weakly coupled bipartite system with a large energy level difference under the influence of spin-star environments. The subsystems can be coupled to a pure state or a thermal equilibrium state spin-star environment. Our results show that, in the case of the coupling strength being less than the energy level difference of the subsystems (weakly coupled), the spin-star environment can always be used to assist the entanglement generation of the bipartite system.

Wei Yi-Huan, Lan Tian-Bao, Zhang Yue-Zhu, Fu Yan-Yan
Chin. Phys. B. 2014, 23 (5): 050401 doi: 10.1088/1674-1056/23/5/050401
Full Text: [PDF 199 KB] (14)
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The mechanical property of the thermal-equilibrium Friedmann-Robertson-Walker (TEFRW) universe is first studied. The equation of state and the scale factor of the TEFRW universe take the forms of w=w(a;zT) and a=a(a;zT,H0). For the universe consisting of the nonrelativistic matter and the dark energy, the behavior of the dark energy depends on the value of the present-day matter fraction. For the TEFRW universe consisting of N ingredients, the effective temperature is introduced. Lastly, a simple TEFRW universe model is analyzed.

Lin Zheng-Zhe, Li Wang-Yao, Ning Xi-Jing
Chin. Phys. B. 2014, 23 (5): 050501 doi: 10.1088/1674-1056/23/5/050501
Full Text: [PDF 1646 KB] (9)
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A simple model based on the statistics of individual atoms [Europhys. Lett. 94 40002 (2011)] or molecules [Chin. Phys. Lett. 29 080504 (2012)] was used to predict chemical reaction rates without empirical parameters, and its physical basis was further investigated both theoretically and via MD simulations. The model was successfully applied to some reactions of extensive experimental data, showing that the model is significantly better than the conventional transition state theory. It is worth noting that the prediction of the model on ab initio level is much easier than the transition state theory or unimolecular RRKM theory.
Liu Gui-Quan, Ying He-Ping
Chin. Phys. B. 2014, 23 (5): 050502 doi: 10.1088/1674-1056/23/5/050502
Full Text: [PDF 538 KB] (7)
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We study the motion of a spiral wave controlled by a local periodic forcing imposed on a region around the spiral tip in an excitable medium. Three types of trajectories of spiral tip are observed: the epicycloid-like meandering, the resonant drift, and the hypocycloid-like meandering. The frequency of the spiral is sensitive to the local periodic forcing. The dependency of spiral frequency on the amplitude and size of local periodic forcing are presented. In addition, we show how the drift speed and direction are adjusted by the amplitude and phase of local periodic forcing, which is consistent with a theoretical analysis based on the weak deformation approximation.

Bilal Shoaib, Ijaz Mansoor Qureshi, Shafqatullah, Ihsanulhaq
Chin. Phys. B. 2014, 23 (5): 050503 doi: 10.1088/1674-1056/23/5/050503
Full Text: [PDF 675 KB] (21)
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This paper presents an adaptive step-size modified fractional least mean square (AMFLMS) algorithm to deal with a nonlinear time series prediction. Here we incorporate adaptive gain parameters in the weight adaptation equation of the original MFLMS algorithm and also introduce a mechanism to adjust the order of the fractional derivative adaptively through a gradient-based approach. This approach permits an interesting achievement towards the performance of the filter in terms of handling nonlinear problems and it achieves less computational burden by avoiding the manual selection of adjustable parameters. We call this new algorithm the AMFLMS algorithm. The predictive performance for the nonlinear chaotic Mackey Glass and Lorenz time series was observed and evaluated using the classical LMS, Kernel LMS, MFLMS, and the AMFLMS filters. The simulation results for the Mackey glass time series, both without and with noise, confirm an improvement in terms of mean square error for the proposed algorithm. Its performance is also validated through the prediction of complex Lorenz series.

Song Rui-Zhuo, Xiao Wen-Dong, Wei Qing-Lai
Chin. Phys. B. 2014, 23 (5): 050504 doi: 10.1088/1674-1056/23/5/050504
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We develop an online adaptive dynamic programming (ADP) based optimal control scheme for continuous-time chaotic systems. The idea is to use the ADP algorithm to obtain the optimal control input that makes the performance index function reach an optimum. The expression of the performance index function for the chaotic system is first presented. The online ADP algorithm is presented to achieve optimal control. In the ADP structure, neural networks are used to construct a critic network and an action network, which can obtain an approximate performance index function and the control input, respectively. It is proven that the critic parameter error dynamics and the closed-loop chaotic systems are uniformly ultimately bounded exponentially. Our simulation results illustrate the performance of the established optimal control method.

Sun Chang-Chun, Zhao En-Liang, Xu Qi-Cheng
Chin. Phys. B. 2014, 23 (5): 050505 doi: 10.1088/1674-1056/23/5/050505
Full Text: [PDF 4279 KB] (8)
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A new three-dimensional (3D) system is constructed and a novel spherical chaotic attractor is generated from the system. Basic dynamical behaviors of the chaotic system are investigated respectively. Novel spherical chaotic attractors can be generated from the system within a wide range of parameter values. The shapes of spherical chaotic attractors can be impacted by the variation of parameters. Finally, a simpler 3D system and a more complex 3D system with the same capability of generating spherical chaotic attractors are put forward respectively.
Chen Zi-Chen, Li Bo, Qiu Hai-Bo, Xi Xiao-Qiang
Chin. Phys. B. 2014, 23 (5): 050506 doi: 10.1088/1674-1056/23/5/050506
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We study the collective dynamics of a non-dissipative two-coupled pendulum system, including phase synchronization (PS) and measure synchronization (MS). We find that as the coupling intensity between the two pendulums increases, the PS happens prior to the MS. We also present a three-dimensional phase space representation of MS, from which a more detailed information about evolution can be obtained. Furthermore, the order parameters are introduced to describe the phase transition between PS and MS. Finally, through the analysis of the Poincaré sections, we show that the system exhibits separatrix crossing behavior right at the MS transition point, and as the total initial energy increases, the Hamiltonian chaos will arise with separatrix chaos at the chaotic MS transition point.
Qi Guo-Yuan, Sandra Bazebo Matondo
Chin. Phys. B. 2014, 23 (5): 050507 doi: 10.1088/1674-1056/23/5/050507
Full Text: [PDF 813 KB] (2)
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In this paper, during the masking process the encrypted message is convolved and embedded into a Qi hyper-chaotic system characterizing a high disorder degree. The masking scheme was tested using both Qi hyper-chaos and Lorenz chaos and indicated that Qi hyper-chaos based masking can resist attacks of the filtering and power spectrum analysis, while the Lorenz based scheme fails for high amplitude data. To unmask the message at the receiving end, two methods are proposed. In the first method, a model-free synchronizer, i.e. a multivariable higher-order differential feedback controller between the transmitter and receiver is employed to de-convolve the message embedded in the receiving signal. In the second method, no synchronization is required since the message is de-convolved using the information of the estimated derivative.
Guo Liu-Xiao, Hu Man-Feng, Hu Ai-Hua, Xu Zhen-Yuan
Chin. Phys. B. 2014, 23 (5): 050508 doi: 10.1088/1674-1056/23/5/050508
Full Text: [PDF 733 KB] (11)
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Consensus in directed networks of multiple agents, as an important topic, has become an active research subject. Over the past several years, some types of consensus problems have been studied. In this paper, we propose a novel type of consensus, the generalized consensus (GC), which includes the traditional consensus, the anti-consensus, and the cluster consensus as its special cases. Based on the Lyapunov's direct method and the graph theory, a simple control algorithm is designed to achieve the generalized consensus in a network of agents. Numerical simulations of linear and nonlinear GC are used to verify the effectiveness of the theoretical analysis.

Wang Jian-An, Nie Rui-Xing, Sun Zhi-Yi
Chin. Phys. B. 2014, 23 (5): 050509 doi: 10.1088/1674-1056/23/5/050509
Full Text: [PDF 286 KB] (4)
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We deal with the problem of pinning sampled-data synchronization for a complex network with probabilistic time-varying coupling delay. The sampling period considered here is assumed to be less than a given bound. Without using the Kronecker product, a new synchronization error system is constructed by using the property of the random variable and input delay approach. Based on the Lyapunov theory, a delay-dependent pinning sampled-data synchronization criterion is derived in terms of linear matrix inequalities (LMIs) that can be solved effectively by using MATLAB LMI toolbox. Numerical examples are provided to demonstrate the effectiveness of the proposed scheme.

Jia Bing
Chin. Phys. B. 2014, 23 (5): 050510 doi: 10.1088/1674-1056/23/5/050510
Full Text: [PDF 624 KB] (6)
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The coexistence of a resting condition and period-1 firing near a subcritical Hopf bifurcation point, lying between the monostable resting condition and period-1 firing, is often observed in neurons of the central nervous systems. Near such a bifurcation point in the Morris-Lecar (ML) model, the attraction domain of the resting condition decreases while that of the coexisting period-1 firing increases as the bifurcation parameter value increases. With the increase of the coupling strength, and parameter and initial value dependent synchronization transition processes from non-synchronization to compete synchronization are simulated in two coupled ML neurons with coexisting behaviors: one neuron chosen as the resting condition and the other the coexisting period-1 firing. The complete synchronization is either a resting condition or period-1 firing dependent on the initial values of period-1 firing when the bifurcation parameter value is small or middle and is period-1 firing when the parameter value is large. As the bifurcation parameter value increases, the probability of the initial values of a period-1 firing neuron that lead to complete synchronization of period-1 firing increases, while that leading to complete synchronization of the resting condition decreases. It shows that the attraction domain of a coexisting behavior is larger, the probability of initial values leading to complete synchronization of this behavior is higher. The bifurcations of the coupled system are investigated and discussed. The results reveal the complex dynamics of synchronization behaviors of the coupled system composed of neurons with the coexisting resting condition and period-1 firing, and are helpful to further identify the dynamics of the spatiotemporal behaviors of the central nervous system.
Ma Song-Hua, Xu Gen-Hai, Zhu Hai-Ping
Chin. Phys. B. 2014, 23 (5): 050511 doi: 10.1088/1674-1056/23/5/050511
Full Text: [PDF 629 KB] (12)
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With the help of the symbolic computation system Maple, the Riccati equation mapping approach and a linear variable separation approach, a new family of complex solutions for the (2+1)-dimensional Boiti-Leon-Pempinelli system (BLP) is derived. Based on the derived solitary wave solution, some novel complex wave localized excitations are obtained.

Yue Hao, Zhang Bin-Ya, Shao Chun-Fu, Xing Yan
Chin. Phys. B. 2014, 23 (5): 050512 doi: 10.1088/1674-1056/23/5/050512
Full Text: [PDF 1575 KB] (12)
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A mixed strategy of the exit selection in a pedestrian evacuation simulation with multi-exits is constructed by fusing the distance-based and time-based strategies through a cognitive coefficient, in order to reduce the evacuation imbalance caused by the asymmetry of exits or pedestrian layout, to find a critical density to distinguish whether the strategy of exit selection takes effect or not, and to analyze the exit selection results with different cognitive coefficients. The strategy of exit selection is embedded in the computation of the shortest estimated distance in a dynamic parameter model, in which the concept of a jam area layer and the procedure of step-by-step expending are introduced. Simulation results indicate the characteristics of evacuation time gradually varying against cognitive coefficient and the effectiveness of reducing evacuation imbalance caused by the asymmetry of pedestrian or exit layout. It is found that there is a critical density to distinguish whether a pedestrian jam occurs in the evacuation and whether an exit selection strategy is in effect. It is also shown that the strategy of exit selection has no effect on the evacuation process in the no-effect phase with a low density, and that evacuation time and exit selection are dependent on the cognitive coefficient and pedestrian initial density in the in-effect phase with a high density.

Sun Chen, Cheng Xue-Tao, Liang Xin-Gang
Chin. Phys. B. 2014, 23 (5): 050513 doi: 10.1088/1674-1056/23/5/050513
Full Text: [PDF 291 KB] (4)
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Thermal power plant is one of the important thermodynamic devices, which is very common in all kinds of power generation systems. In this paper, we use a new concept, entransy loss, as well as exergy destruction, to analyze the single reheating Rankine cycle unit and the single stage steam extraction regenerative Rankine cycle unit in power plants. This is the first time that the concept of entransy loss is applied to the analysis of the power plant Rankine cycles with reheating and steam extraction regeneration. In order to obtain the maximum output power, the operating conditions under variant vapor mass flow rates are optimized numerically, as well as the combustion temperatures and the off-design flow rates of the flue gas. The relationship between the output power and the exergy destruction rate and that between the output power and the entransy loss rate are discussed. It is found that both the minimum exergy destruction rate and the maximum entransy loss rate lead to the maximum output power when the combustion temperature and heat capacity flow rate of the flue gas are prescribed. Unlike the minimum exergy destruction rate, the maximum entransy loss rate is related to the maximum output power when the highest temperature and heat capacity flow rate of the flue gas are not prescribed.

María Elena Lárraga, Luis Alvarez-Icaza
Chin. Phys. B. 2014, 23 (5): 050701 doi: 10.1088/1674-1056/23/5/050701
Full Text: [PDF 642 KB] (5)
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In this paper, a recently introduced cellular automata (CA) model is used for a statistical analysis of the inner microscopic structure of synchronized traffic flow. The analysis focuses on the formation and dissolution of clusters or platoons of vehicles, as the mechanism that causes the presence of this synchronized traffic state with a high flow. This platoon formation is one of the most interesting phenomena observed in traffic flows and plays an important role both in manual and automated highway systems (AHS). Simulation results, obtained from a single-lane system under periodic boundary conditions indicate that in the density region where the synchronized state is observed, most vehicles travel together in platoons with approximately the same speed and small spatial distances. The examination of velocity variations and individual vehicle gaps shows that the flow corresponding to the synchronized state is stable, safe and highly correlated. Moreover, results indicate that the observed platoon formation in real traffic is reproduced in simulations by the relation between vehicle headway and velocity that is embedded in the dynamics definition of the CA model.

ATOMIC AND MOLECULAR PHYSICS
Li Rui, Zhang Xiao-Mei, Jin Ming-Xing, Xu Hai-Feng, Yan Bing
Chin. Phys. B. 2014, 23 (5): 053101 doi: 10.1088/1674-1056/23/5/053101
Full Text: [PDF 396 KB] (7)
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The 18 Λ-S states correlated to the lowest dissociation limit of SiTe were calculated by using a high-level multireference configuration interaction (MRCI) method, including scalar relativistic and spin-orbit coupling effects. Based on the calculated potential energy curves, the spectroscopic constants of bound states were determined, which are well consistent with previous experimental results. The spin-orbit matrix elements between the Λ-S states were computed, which lead to an in-depth understanding of perturbations on the electronic state a3Π. Finally, the transition dipole moments of allowed transitions A1Π-X1Σ+, E1Σ+-X1Σ+, a3Π-d3Δ, a3Π-a'3Σ+, a3Π-e3Σ-, and the radiative lifetimes of A1Π, E1Σ+, and a3Π were evaluated.

Wang Jun, Wang Bing-Bing, Guo Fu-Ming, Li Su-Yu, Ding Da-Jun, Chen Ji-Gen, Zeng Si-Liang, Yang Yu-Jun
Chin. Phys. B. 2014, 23 (5): 053201 doi: 10.1088/1674-1056/23/5/053201
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Using Bohmian trajectory (BT) method, we investigate the dynamic interference in high-order harmonic generation from diatomic molecular ions. It is demonstrated that the main characteristics of the molecular harmonic spectrum can be well reproduced by only two BTs which are located at the two ions. This happens because these two localized trajectories can receive and store the whole collision information coming from all of the other re-collision trajectories. Therefore, the amplitudes and frequencies of these two trajectories represent the intensity and frequency distribution of the harmonic generation. Moreover, the interference between these two trajectories shows a dip in the harmonic spectrum, which reveals the molecular structure information.

Tian Yuan-Ye, Li Su-Yu, Wei Shan-Shan, Guo Fu-Ming, Zeng Si-Liang, Chen Ji-Gen, Yang Yu-Jun
Chin. Phys. B. 2014, 23 (5): 053202 doi: 10.1088/1674-1056/23/5/053202
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We systematically investigate the influence of atomic potentials on the above-threshold ionization (ATI) spectra in one-dimensional (1D) cases and compare them with the three-dimensional (3D) case by numerically solving the time-dependent Schrödinger equation. It is found that the direct ionization plateau and the rescattering plateau of the ATI spectrum in the 3D case can be well reproduced by the 1D ATI spectra calculated from the supersolid-core potential and the soft-core potential, respectively. By analyzing the factors that affect the yield of the ATI spectrum, we propose a modified-potential with which we can reproduce the overall 3D ATI spectrum. In addition, the influence of the incident laser intensities and frequencies on the ATI spectra calculated from the proposed modified potential is studied.

Yin Yong-Zhi, Wang Yun, Chen Xi-Meng
Chin. Phys. B. 2014, 23 (5): 053401 doi: 10.1088/1674-1056/23/5/053401
Full Text: [PDF 291 KB] (5)
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We investigate the single-electron loss processes of light charged ions (Li1+,2+, C2+,3+,5+, and O2+,3+) in collisions with helium. To better understand the experimental results, we propose a theoretical model to calculate the cross section of projectile electron loss. In this model, an ionization radius of the incident ion was defined under the classical over-barrier model, and we developed “strings” to explain the processes of projectile electron loss, which is similar with the molecular over-barrier model. Theoretical calculations are in good agreement with the experimental results for the cross section of single-electron loss and the ratio of double-to-single ionization of helium associated with one-electron loss.

Zhou Li-Xia, Yan You-Guo
Chin. Phys. B. 2014, 23 (5): 053402 doi: 10.1088/1674-1056/23/5/053402
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The (e, 2e) triple differential cross sections of 2s orbitals of neon and neonic ions (Z=11-14) are calculated using a distorted-wave Born approximation under coplanar asymmetric geometry. The calculated results show that, with the increase in the nuclear charge number Z, the amplitude of triple differential cross sections decreases. The angle difference between the binary peak position and the direction of momentum transfer gradually increases with the increase in the nuclear charge Z, and a new structure appears at an ejected angle 90°<θ 2<120°. Three kinds of collision processes are proposed to illustrate the formation mechanism of such collision peaks.

Lin Mei, Liu Ya-Wei, Zhong Zhi-Ping, Zhu Lin-Fan
Chin. Phys. B. 2014, 23 (5): 053403 doi: 10.1088/1674-1056/23/5/053403
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The ionization and ionic dissociation of the superexcited state of N2O are studied by using electron energy loss spectroscopy and positive ion time-of-flight mass spectroscopy at different momentum transfers; that is, 0 and 0.23 a.u. (atomic unit). The transitions at 13.8 eV and 14.0 eV are reassigned as 3pπ (000) and 3pσ (000) converging to A2Σ+, respectively. The competition between the main decay pathways of superexcited states at different momentum transfers is revealed. It is found that 3dσ converging to C2Σ+ mainly decays into N2O+ while 4dσ can decay into both N2O+ and NO+.

ELECTROMAGNETISM, OPTICS, ACOUSTICS, HEAT TRANSFER, CLASSICAL MECHANICS, AND FLUID DYNAMICS
Luo Xiao-Yang, Liu Dao-Ya, Liu Jin-Jing, Dong Jian-Feng
Chin. Phys. B. 2014, 23 (5): 054101 doi: 10.1088/1674-1056/23/5/054101
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Two-dimensional (2D) elliptically cylindrical invisible cloaks with multiple regions are designed based on the transformation optics and the complementary media theory. Multiple invisible cloak regions can be obtained by properly using the compressed or folded transformation in each space layer. The constitutive parameter tensor expressions for each region have been obtained. The results of full wave simulations by using finite element software confirm the validity of the constitutive parameter tensor expressions. In addition, the parameters are relatively easier to realize.

Li Ting-Hua, Huang Ming, Yang Jing-Jing, Yuan Gang, Cai Guang-Hui
Chin. Phys. B. 2014, 23 (5): 054102 doi: 10.1088/1674-1056/23/5/054102
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We propose an inverse method to determine the material parameters of a transparent device without any knowledge of the corresponding transformation function. The required parameters are independently obtained and expressed as functions of the introduced generator. Moreover, to remove the inhomogeneity and anisotropy of material parameters, a layered transparent device composed of only homogeneous and isotropic materials is presented based on the effective medium theory. The feasibility of using the layered device in antenna protection is also investigated. Full-wave simulation is carried out for verification. This work paves a new way toward designing metamaterial devices without specifying the underlying coordinate transformation, and has great guiding significance for the practical fabrication of transparent devices.
Liang Guo-Hua, Lü Qing-Zheng, Teng Ai-Ping, Li Ying-Jun
Chin. Phys. B. 2014, 23 (5): 054103 doi: 10.1088/1674-1056/23/5/054103
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The multiphoton Compton scattering in a high-intensity laser beam is studied by using the laser-dressed quantum electrodynamics (QED) method, which is a non-perturbative theory for the interaction between a plane electromagnetic field and a charged particle. In order to analyze in the real experimental condition, a Lorentz transformation for the cross section of this process is derived between the laboratory frame and the initial rest frame of electrons. The energy of the scattered photon is analyzed, as well as the cross sections for different laser intensities and polarizations and different electron velocities. The angular distribution of the emitted photon is investigated in a special velocity of the electron, in which for a fixed number of absorbed photons, the electron energy will not change after the scattering in the lab frame. We obtain the conclusion that higher laser intensities suppress few-laser-photon absorption and enhance more-laser-photon absorption. A comparison between different polarizations is also made, and we find that the linearly polarized laser is more suitable to generate nonlinear Compton scattering.

Li Hai-Ying, Wu Zhen-Sen, Bai Lu, Li Zheng-Jun
Chin. Phys. B. 2014, 23 (5): 054201 doi: 10.1088/1674-1056/23/5/054201
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Scattering and propagation of terahertz pulses in random soot aggregate systems are studied by using the generalized multi-particle Mie-solution (GMM) and the pulse propagation theory. Soot aggregates are obtained by the diffusion-limited aggregation (DLA) model. For a soot aggregate in soot aggregate systems, scattering characteristics are analyzed by using the GMM. Scattering intensities versus scattering angles are given. The effects of different positions of the aggregate on the scattering intensities, scattering cross sections, extinction cross sections, and absorption cross sections are computed and compared. Based on pulse propagation in random media, the transmission of terahertz pulses in random soot aggregate systems is determined by the two-frequency mutual coherence function. Numerical simulations and analysis are given for terahertz pulses (0.7956 THz).
Liu Rui-Feng, Yuan Xin-Xing, Fang Yi-Zhen, Zhang Pei, Zhou Yu, Gao Hong, Li Fu-Li
Chin. Phys. B. 2014, 23 (5): 054202 doi: 10.1088/1674-1056/23/5/054202
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The fourier-transform patterns of an object are usually observed in the far-field region or obtained in the near-field region with the help of lenses. Here we propose and experimentally demonstrate a scheme of Fourier-transform patterns in the Fresnel diffraction region with thermal light. In this scheme, neither a lens nor a beamsplitter is used, and only one single charge coupled device (CCD) is employed. It means that dividing one beam out of a light source into signal and reference beams is not as necessary as the one done by the use of a beamsplitter in usual ghost interference experiments. Moreover, the coincidence measurement of two point detectors is not necessary and data recorded on a single CCD are sufficient for reconstructing the ghost diffraction patterns. The feature of the scheme promises a great potential application in the fields of X-ray and neutron diffraction imaging processes.

Zhao Sheng-Mei, Zhuang Peng
Chin. Phys. B. 2014, 23 (5): 054203 doi: 10.1088/1674-1056/23/5/054203
Full Text: [PDF 398 KB] (20)
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Ghost imaging (GI) offers great potential with respect to conventional imaging techniques. It is an open problem in GI systems that a long acquisition time is be required for reconstructing images with good visibility and signal-to-noise ratios (SNRs). In this paper, we propose a new scheme to get good performance with a shorter construction time. We call it correspondence normalized ghost imaging based on compressive sensing (CCNGI). In the scheme, we enhance the signal-to-noise performance by normalizing the reference beam intensity to eliminate the noise caused by laser power fluctuations, and reduce the reconstruction time by using both compressive sensing (CS) and time-correspondence imaging (CI) techniques. It is shown that the qualities of the images have been improved and the reconstruction time has been reduced using CCNGI scheme. For the two-grayscale “double-slit” image, the mean square error (MSE) by GI and the normalized GI (NGI) schemes with the measurement number of 5000 are 0.237 and 0.164, respectively, and that is 0.021 by CCNGI scheme with 2500 measurements. For the eight-grayscale “lena” object, the peak signal-to-noise rates (PSNRs) are 10.506 and 13.098, respectively using GI and NGI schemes while the value turns to 16.198 using CCNGI scheme. The results also show that a high-fidelity GI reconstruction has been achieved using only 44% of the number of measurements corresponding to the Nyquist limit for the two-grayscale “double-slit” object. The qualities of the reconstructed images using CCNGI are almost the same as those from GI via sparsity constraints (GISC) with a shorter reconstruction time.

Hu Zheng-Feng, Du Chun-Guang, Deng Jian-Liao, Wang Yu-Zhu
Chin. Phys. B. 2014, 23 (5): 054204 doi: 10.1088/1674-1056/23/5/054204
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Transient coherent oscillations in a closed Λ system under far-off resonant Raman fields were investigated theoretically. It has been found that the coherent superposition of the ground states can be formed due to the absorption even for initial maximal mixed ground states. The absorption oscillates with a period depending on the two-photon detuning when the system is initially in a transparent state and the two-photon Raman detuning is suddenly changed. The amplitude of the absorption decays with the decay rate of the ground states, which is different from the case when the lasers are applied resonantly. These transient coherent oscillations can be used to measure the relaxation rate of the ground states.

Yang Bao-Dong, He Jun, Wang Jun-Min
Chin. Phys. B. 2014, 23 (5): 054205 doi: 10.1088/1674-1056/23/5/054205
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We present an investigation of double-resonance optical pumping (DROP) spectra under the condition of single-photon frequency detuning based on a cesium 6S1/2 -6P3/2 -8S1/2 ladder-type system with a room-temperature vapor cell. Two DROP peaks are found, and their origins are explored. One peak has a narrow linewidth due to the atomic coherence for a counterpropagating configuration; the other peak has a broad linewidth, owing to the spontaneous decay for a copropagating configuration. This kind of off-resonant DROP spectrum can be used to control and offset-lock a laser frequency to a transition between excited states. We apply this technique to a multiphoton cesium magneto-optical trap, which can efficiently trap atoms on both red and blue sides of the two-photon resonance.

Li Hai-Chao, Ge Guo-Qin
Chin. Phys. B. 2014, 23 (5): 054206 doi: 10.1088/1674-1056/23/5/054206
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We present a theoretical study of electromagnetically induced transparency (EIT) in a superconducting quantum circuit with a tunable V-shaped energy spectrum derived from two superconducting Josephson charge qubits coupled with each other through a superconducting quantum interference device. Using the density matrix formalism and the steady-state approximation, we obtain the analytical expressions of the first-order matrix element associated with the absorption and dispersion of the probe field for two different V-type schemes. Our results show that, for this superconducting quantum system, it is possible to realize a remarkable phenomenon that dynamic conversion between EIT and EIT with amplification without population inversion. Such a unique optical feature has potential applications in quantum optical devices and quantum information processing.

Gao Zi-Ye, Zhu Jiang-Feng, Tian Wen-Long, Wang Jun-Li, Wang Qing, Zhang Zhi-Guo, Wei Zhi-Yi, Yu Hao-Hai, Zhang Huai-Jin, Wang Ji-Yang
Chin. Phys. B. 2014, 23 (5): 054207 doi: 10.1088/1674-1056/23/5/054207
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A self-starting mode-locked femtosecond laser is accomplished with an oxoborate self-frequency doubling crystal Yb:YCa4O(BO3)3 (Yb:YCOB) as the gain medium and a semiconductor mirror as the saturable absorber. Pumped by a 976-nm fiber-coupled diode laser with 50-u m core diameter, stable mode-locked laser pulses up to 430 mW were obtained at a repetition rate of 83.61 MHz under 5-W pump power. The autocorrelation measurement shows that the pulse duration is as short as 150 fs by assuming the sech2 pulse shape at a central wavelength of 1048 nm. This work has demonstrated a compact and reliable femtosecond laser source for prospective low-cost applications.

Yang Wei-Qiang, Zhang Bin, Hou Jing, Yin Ke, Liu Ze-Jin
Chin. Phys. B. 2014, 23 (5): 054208 doi: 10.1088/1674-1056/23/5/054208
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A new method to achieve 2-μm pulsed fiber lasers based on a supercontinuum (SC) is demonstrated. The incident pump light is a pulsed SC which contains a pump light and a signal light at the same time. The initial signal of the seed laser is provided by the incident pump light and amplified in the cavity. Based on this, we obtain a 2-μm pulsed laser with pulse repetition rate of 50 kHz and pulse width of 2 ns from the Tm-doped fiber laser. This 2-μm pulsed laser is amplified by two stages of fiber amplifiers, then the amplified laser is used for mid-infrared (mid-IR) SC generation in a 10-m length of ZrF4-BaF2-LaF3-AlF3-NaF (ZBLAN) fiber. An all-fiber-integrated mid-IR SC with spectrum ranging from 1.8 μm to 4.3 μm is achieved. The maximal average output power of the mid-IR SC from the ZBLAN fiber is 1.24 W (average output power beyond 2.5 μm is 340 mW), corresponding to an output efficiency of 6.6% with respect to the 790-nm pump power.

Wang Rui-Min, Wang Xing-Peng, Wu Zhen-Kun, Yao Xin, Zhang Yi-Qi, Zhang Yan-Peng
Chin. Phys. B. 2014, 23 (5): 054209 doi: 10.1088/1674-1056/23/5/054209
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We report the multi-component optical azimuthons of four-wave mixing (FWM) composed of several modulated vortex beams, the so-called azimuthons, in V-type three-level and two-level atomic systems. We analyze the formation mechanisms of the FWM azimuthons theoretically and experimentally. In addition, we illustrate the interactions between the co-propagating azimuthon components. Finally, we also compare the stabilities of azimuthons in V-type three-level and two-level atomic systems.

Xu De-Gang, Wang Yu-Ye, Yu Hong, Li Jia-Qi, Li Zhong-Xiao, Yan Chao, Zhang Hao, Liu Peng-Xiang, Zhong Kai, Wang Wei-Peng, Yao Jian-Quan
Chin. Phys. B. 2014, 23 (5): 054210 doi: 10.1088/1674-1056/23/5/054210
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We demonstrate a low-loss terahertz waveguide based on the InAs-graphene-SiC structure. By analyzing the terahertz waveguide proposed in this paper, we can obtain that it is the characteristic of a low transmission loss coefficient (αloss ≈ 0.55 dB/m) for fundamental mode (LP01) when the incident frequency is larger than 3.0 THz. The critical radii of the inside and outside cylinders have been found for the high-quality transmission. The large inside radius and the high transmission frequency result in a flat transmission loss coefficient curve. As a strictly two-dimensional material, the double graphene surface rings perform better to improve the quality of transmission mode. These results provide a new idea for the research of the long-distance THz waveguide.

Liang Ming-Ming, Weng Guo-En, Zhang Jiang-Yong, Cai Xiao-Mei, Lü Xue-Qin, Ying Lei-Ying, Zhang Bao-Ping
Chin. Phys. B. 2014, 23 (5): 054211 doi: 10.1088/1674-1056/23/5/054211
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The structural and optical properties of InGaN/GaN multiple quantum wells (MQWs) with different barrier thicknesses are studied by means of high resolution X-ray diffraction (HRXRD), a cross-sectional transmission electron microscope (TEM), and temperature-dependent photoluminescence (PL) measurements. HRXRD and cross-sectional TEM measurements show that the interfaces between wells and barriers are abrupt and the entire MQW region has good periodicity for all three samples. As the barrier thickness is increased, the temperature of the turning point from blueshift to redshift of the S-shaped temperature-dependent PL peak energy increases monotonously, which indicates that the localization potentials due to In-rich clusters is deeper. From the Arrhenius plot of the normalized integrated PL intensity, it is found that there are two kinds of nonradiative recombination processes accounting for the thermal quenching of photoluminescence, and the corresponding activation energy (or the localization potential) increases with the increase of the barrier thickness. The dependence on barrier thickness is attributed to the redistribution of In-rich clusters during the growth of barrier layers, i.e., clusters with lower In contents aggregate into clusters with higher In contents.

Zhang Zhe, Chen Gong, Zhang Dong
Chin. Phys. B. 2014, 23 (5): 054302 doi: 10.1088/1674-1056/23/5/054302
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Exploring new acoustic parameters is essential to develop a noninvasive imaging technique for the surgery of silicone oil tamponades. In this study, the acoustic nonlinearity parameters B/A of varied silicone oil samples (e.g., linear or hyper-branched) are experimentally measured by using a modified thermodynamic method. The results show that: (i) when the concentration of the silicone oil with a molecular weight of 5× 104 increases from 0.5 g/100 ml to 8 g/100 ml, the corresponding B/A value increases by about 18%, but the acoustic velocity only increases by about 0.1%; (ii) when the molecular weight of the hyper-branched silicone oil is enhanced from 2× 105 to 1× 106, the B/A value increases by about 22%, while the acoustic velocity is only raised by about 0.2%. This study suggests that the B/A parameter of the silicone oil is more sensitive to the change in its molecular structure than that of the acoustic velocity. Thus, the B/A parameter might be utilized as an effective index for the development and optimization of the noninvasive imaging of the surgery of silicone oil tamponades.

Jin Shi-Xin, Zhang Yi
Chin. Phys. B. 2014, 23 (5): 054501 doi: 10.1088/1674-1056/23/5/054501
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In this paper, the Noether symmetries and the conserved quantities for a Hamilton system with time delay are discussed. Firstly, the variational principles with time delay for the Hamilton system are given, and the Hamilton canonical equations with time delay are established. Secondly, according to the invariance of the function under the infinitesimal transformations of the group, the basic formulas for the variational of the Hamilton action with time delay are discussed, the definitions and the criteria of the Noether symmetric transformations and quasi-symmetric transformations with time delay are obtained, and the relationship between the Noether symmetry and the conserved quantity with time delay is studied. In addition, examples are given to illustrate the application of the results.

Guo Sheng-Peng, Li Dong-Xu, Meng Yun-He, Fan Cai-Zhi
Chin. Phys. B. 2014, 23 (5): 054502 doi: 10.1088/1674-1056/23/5/054502
Full Text: [PDF 393 KB] (2)
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On-orbit servicing requires efficient techniques for manipulating passive objects. The paper aims at developing a reactionless control method that drives the manipulator to manipulate passive objects with high precision, while inducing no disturbances to its base attitude. To this end, decomposition of the target dynamics from the base dynamics is discussed, so that they can be considered as two independent subsystems. A reactionless nonlinear controller is presented, which ensures high-precision manipulation of the targets and that the base orientation is unchanged. This is achieved by combining the robust finite-time control with the reaction null space. Finally, the performance of the proposed method is examined by comparing it with that of a reactionless PD controller and a pure finite-time controller.

Zheng He-Peng
Chin. Phys. B. 2014, 23 (5): 054503 doi: 10.1088/1674-1056/23/5/054503
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Acoustical waves propagating along the free surface of granular media under gravity are investigated in the framework of elasticity theory. The influence of stress on a surface wave is analyzed. The results have shown that two types of surface waves, namely sagittal and transverse modes exist depending on initial stress states, which may have some influence on the dispersion relations of surface waves, but the influence is not great. Considering that the present experimental accuracy is far from distinguishing this detail, the validity of elasticity theory on the surface waves propagating in granular media can still be maintained.
T. Hayat, M. Imtiaz, A. Alsaedi, R. Mansoor
Chin. Phys. B. 2014, 23 (5): 054701 doi: 10.1088/1674-1056/23/5/054701
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This article concentrates on the steady magnetohydrodynamic (MHD) flow of viscous nanofluid. The flow is caused by a permeable exponentially stretching surface. An incompressible fluid fills the porous space. A comparative study is made for the nanoparticles namely Copper (Cu), Silver (Ag), Alumina (Al2O3) and Titanium Oxide (TiO2). Water is treated as a base fluid. Convective type boundary conditions are employed in modeling the heat transfer process. The non-linear partial differential equations governing the flow are reduced to an ordinary differential equation by similarity transformations. The obtained equations are then solved for the development of series solutions. Convergence of the obtained series solutions is explicitly discussed. The effects of different parameters on the velocity and temperature profiles are shown and analyzed through graphs.

Saleem Asghar, Tayyaba Minhas, Aamir Ali
Chin. Phys. B. 2014, 23 (5): 054702 doi: 10.1088/1674-1056/23/5/054702
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Analytical solutions for the peristaltic flow of a magneto hydrodynamic (MHD) Sisko fluid in a channel, under the effects of strong and weak magnetic fields, are presented. The governing nonlinear problem, for the strong magnetic field, is solved using the matched asymptotic expansion. The solution for the weak magnetic field is obtained using a regular perturbation method. The main observation is the existence of a Hartman boundary layer for the strong magnetic field at the location of the two plates of the channel. The thickness of the Hartmann boundary layer is determined analytically. The effects of a strong magnetic field and the shear thinning parameter of the Sisko fluid on the velocity profile are presented graphically.
A. Qayyum, T. Hayat, M. S. Alhuthali, H. M. Malaikah
Chin. Phys. B. 2014, 23 (5): 054703 doi: 10.1088/1674-1056/23/5/054703
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A mathematical model is constructed to investigate the three-dimensional flow of a non-Newtonian fluid. An incompressible viscoelastic fluid is used in mathematical formulation. The conjugate convective process (in which heat the transfer rate from the bounding surface with a finite capacity is proportional to the local surface temperature) in three-dimensional flow of a differential type of non-Newtonian fluid is analyzed for the first time. Series solutions for the nonlinear differential system are computed. Plots are presented for the description of emerging parameters entering into the problem. It is observed that the conjugate heating phenomenon causes an appreciable increase in the temperature at the stretching wall.

PHYSICS OF GASES, PLASMAS, AND ELECTRIC DISCHARGES
Zhao Peng-Cheng, Liao Cheng, Yang Dan, Zhong Xuan-Ming
Chin. Phys. B. 2014, 23 (5): 055101 doi: 10.1088/1674-1056/23/5/055101
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The electron energy distribution function (EEDF), predicted by the Boltzmann equation solver BOLSIG+ based on the two-term approximation, is introduced into the fluid model for simulating the high-power microwave (HPM) breakdown in argon, nitrogen, and air, and its validity is examined by comparing with the results of particle-in-cell Monte Carlo collision (PIC/MCC) simulations as well as the experimental data. Numerical results show that, the breakdown time of the fluid model with the Maxwellian EEDF matches that of the PIC/MCC simulations in nitrogen; however, in argon under high pressures, the results from the Maxwellian EEDF were poor. This is due to an overestimation of the energy tail of the Maxwellian EEDF in argon breakdown. The prediction of the fluid model with the BOLSIG+ EEDF, however, agrees very well with the PIC/MCC prediction in nitrogen and argon over a wide range of pressures. The accuracy of the fluid model with the BOLSIG+ EEDF is also verified by the experimental results of the air breakdown.

Wei Wei, Ding Bo-Jiang, Zhang Xin-Jun, Wang Xiao-Jie, Li Miao-Hui, Kong Er-Hua, Zhang Lei
Chin. Phys. B. 2014, 23 (5): 055201 doi: 10.1088/1674-1056/23/5/055201
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Electron cyclotron current drive (ECCD) will be applied in the EAST tokamak during its the new campaign. In order to provide theoretical predictions for relevant physical experiments, some numerical simulations of ECCD with the parameters of EAST have been carried out by using TORAY-GA code based on the understanding of ECCD mechanisms. ECCD efficiencies achieved in different plasma and electron cyclotron (EC) wave parameters are given. The dependences of ECCD characteristics on EC wave injection angle, toroidal magnetic field, plasma density, and temperature are presented and discussed.
Wang Huan, Cao Li-Hua, Zhao Zong-Qing, Yu Ming-Yang, Gu Yu-Qiu, He Xian-Tu
Chin. Phys. B. 2014, 23 (5): 055202 doi: 10.1088/1674-1056/23/5/055202
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The effect of inner-surface roughness of conical targets on the generation of fast electrons in the laser-cone interaction is investigated using particle-in-cell simulation. It is found that the surface roughness can reduce the fast-electron number (in the energy range E > 1 MeV) and energy, as compared to that from a cone with smooth inner wall. A scaling law for the laser reflectivity based on the vacuum-heating model is derived. Both theory and simulation indicate that laser reflection increases with the height-to-width ratio of the periodic inner surface structure and approaches that of a smooth cone as this ratio becomes zero.

CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
Li Lian-He, Liu Guan-Ting
Chin. Phys. B. 2014, 23 (5): 056101 doi: 10.1088/1674-1056/23/5/056101
Full Text: [PDF 264 KB] (4)
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The complex variable method for solving the two-dimensional thermal stress problem of icosahedral quasicrystals is stated. The closed-form solutions for icosahedral quasicrystals containing an elliptical hole subjected to a remote uniform heat flow are obtained. When the hole degenerates into a crack, the explicit solutions for the stress intensity factors is presented.

Yang Lian-Zhi, Ricoeur Andreas, He Fan-Min, Gao Yang
Chin. Phys. B. 2014, 23 (5): 056102 doi: 10.1088/1674-1056/23/5/056102
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Icosahedral quasicrystals are the most important and thermodynamically stable in all about 200 kinds of quasicrystals currently observed. Beyond the scope of classical elasticity, apart from a phonon displacement field, there is a phason displacement field in the elasticity of the quasicrystal, which induces an important effect on the mechanical properties of the material and makes an analytical solution difficult to obtain. In this paper, a finite element algorithm for the static elasticity of icosahedral quasicrystals is developed by transforming the elastic boundary value problem of the icosahedral quasicrystals into an equivalent variational problem. Analytical and numerical solutions for an icosahedral Al-Pd-Mn quasicrystal cuboid subjected to a uniaxial tension with different phonon-phason coupling parameters are given to verify the validity of the numerical approach. A comparison between the analytical and numerical solutions of the specimen demonstrates the accuracy and efficiency of the present algorithm. Finally, in order to reveal the fracture behavior of the icosahedral Al-Pd-Mn quasicrystal, a cracked specimen with a finite size of matter is investigated, both with and without phonon-phason coupling. Meanwhile, the geometry factors are calculated, including the stress intensity factor and the crack opening displacement for the finite-size specimen. Computational results reveal the importance of phonon-phason coupling effect on the icosahedral Al-Pd-Mn quasicrystal. Furthermore, the finite element procedure can be used to solve more complicated boundary value problems.

Li Jun-Fan, Wen Ke-Chun, He Wei-Dong, Wang Xiao-Ning, Lü Wei-Qiang, Yan Peng-Fei, Song Yuan-Qiang, Lu Hong-Liang, Lin Xiao, Dickerson J. H.
Chin. Phys. B. 2014, 23 (5): 056103 doi: 10.1088/1674-1056/23/5/056103
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In this report, the analytical expression of Coulombic interaction between a spherical nanoparticle and a tetragonal nanorod is derived. To evaluate the Coulombic interaction in the oriented attachment growth of tetragonal nanorods, we analyze the correlation between the Coulombic interaction and the important growth parameters, including: nanoparticle-nanorod separation, aspect ratio of the nanorods, and surface charge density. Our work opens up the opportunity to investigate interparticle interactions in the oriented attachment growth of tetragonal nanorods.

Zhou Hong-Bo, Jin Shuo, Zhang Ying, Shu Xiao-Lin, Niu Liang-Liang
Chin. Phys. B. 2014, 23 (5): 056104 doi: 10.1088/1674-1056/23/5/056104
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The effects of helium (He) on the sliding and mechanical properties of a vanadium (V) Σ5(310)/[001] grain boundary (GB) have been investigated using a first-principles method. It has been found that He was energetically favorable sitting at the GB region with a segregation energy of -0.27 eV, which was attributed to the special atomic configurations and charge density distributions of the GB. The maximal sliding energy barrier of the He-doped GB was calculated to be 1.73 J/m2, ～ 35% larger than that of the clean GB. This suggested that the presence of He would hinder the V GB mobility. Based on the thermodynamic criterion, the total energy calculations indicated that the embrittlement of V GB would be enhanced by He segregation.

Mo Zhao-Jun, Chen Jin-Peng, Lin Jing, Fan Ying, Liang Chun-Yong, Wang Hong-Shui, Xu Xue-Wen, Hu Long, Tang Cheng-Chun
Chin. Phys. B. 2014, 23 (5): 056201 doi: 10.1088/1674-1056/23/5/056201
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Highly pure magnesium borate (Mg2B2O5) nanowires with an average diameter of ～ 30 nm, an average length of ～ 15 μm, and a high aspect ratio of ～ 500 have been synthesized on a large scale via a two-step method. MgBO2(OH) nanowires with high aspect ratios were first prepared via a PVP-assisted hydrothermal technique. Using these nanowires as precursors, single crystalline Mg2B2O5 nanowires were synthesized by post-annealing treatment at a relatively low temperature of 700 ℃. The important effect of the MgBO2(OH)-Mg2B2O5 conversion process on the morphology of the Mg2B2O5 nanowires was investigated and it was indicated that the recrystallization process plays an important role in the protection of the one-dimensional (1D) nanostructure. Moreover, the rigidity and the toughness of the Mg2B2O5 nanowire-reinforced PHA composites were tremendously improved compared to those of the pure PHA. Our results demonstrate the effectiveness of Mg2B2O5 nanowires for reinforcement applications in polymer composites.

Tang Ke-Qin, Zhong Ke-Hua, Cheng Yan-Ming, Huang Zhi-Gao
Chin. Phys. B. 2014, 23 (5): 056301 doi: 10.1088/1674-1056/23/5/056301
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The magnetism and work function Φ of Fe1-xGdx/Fe (001) films have been investigated using first-principles methods based on the density functional theory. The calculated results reveal that Gd doping on the Fe (001) surface would greatly affect the geometrical structure of the system. The restruction of the surface atoms leads to the transition of magnetic coupling between Gd and Fe atoms from ferromagnetic (FM) for 0.5 ≤ x ≤ 0.75 to antiferromagnetic (AFM) for x=1.0. For Fe1-xGdx/Fe (001) (x=0.25, 0.5, 0.75, 1.0), the charge transfer from Gd to Fe leads to a positive dipole formed on the surface, which is responsible for the decrease of the work function. Moreover, it is found that the magnetic moments of Fe and Gd on the surface layer can be strongly influenced by Gd doping. The changes of the work function and magnetism for Fe1-xGdx/Fe (001) can be explained by the electron transfer, the magnetic coupling interaction between Gd and Fe atoms, and the complex surface restruction. Our work strongly suggests that the doping of the metal with a low work function is a promising way for modulating the work function of the magnetic metal gate.

Chen Qi-Hui, Li Peng
Chin. Phys. B. 2014, 23 (5): 056701 doi: 10.1088/1674-1056/23/5/056701
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We investigate the ground state of bosons with long-range interactions in the large U limit on a triangular lattice. By mapping this system to the spin-1/2 XXZ model in a magnetic field, we can apply the spin wave theory to this study. We demonstrate how to construct the phase diagrams within the spin wave theory. The phase diagrams are given in an extensive parameter region, where, besides the superfluid phase, diverse solid and supersolid phases are shown to exist in this model. Especially, we find that the phase diagram obtained in this method is consistent with the one obtained previously using numerical techniques in the Ising limit. This confirms the effectiveness of our method. We analyze the stability of all the obtained supersolids and show that they will not be ruined by the quantum fluctuations. We observe that the quantum fluctuations in the stripe supersolid phase could be enhanced by the external field. We also discuss the relevance of our result with the experiment that may be realized with ultracold bosonic polar molecules in a triangular optical lattice.

Song Chi, Li Dong-Dong, Xu Yi-Chun, Pan Bi-Cai, Liu Chang-Song, Wang Zhi-Guang
Chin. Phys. B. 2014, 23 (5): 056801 doi: 10.1088/1674-1056/23/5/056801
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The corrosion of steels in liquid metal lead (Pb) and bismuth (Bi) is a critical challenge in the development of accelerator driven systems (ADS). Using a first-principles method with a slab model, we theoretically investigate the interaction between the Pb (Bi) atom and the iron (Fe) (100) surface to assess the fundamental corrosion properties. Our investigation demonstrates that both Pb and Bi atoms favorably adsorb on the (100) surface. Such an adsorption decreases the energy required for the dissociation of an Fe atom from the surface, enhancing the dissolution tendency significantly. The segregation of six common alloying elements (Cr, Al, Mn, Ni, Nb, and Si) to the surface and their impacts on the corrosion properties are also considered. The present results reveal that Si seems to have a relatively good performance to stabilize the surface and alleviate the dissolving trend caused by Pb and Bi.

CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
Song Chen-Lu, Yang Zhen-Hui, Su Ting, Wang Kang-Kai, Wang Ju, Liu Yong, Han Gao-Rong
Chin. Phys. B. 2014, 23 (5): 057101 doi: 10.1088/1674-1056/23/5/057101
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The influence of oxygen defects upon the electronic properties of Nb-doped TiO2 has been studied by using the general gradient approximation (GGA)+U method. Four independent models (i.e., an undoped anatase cell, an anatase cell with a Nb dopant at Ti site (NbTi), an anatase cell with a Nb-dopant and an oxygen vacancy (NbTi+VO), and an anatase cell with a Nb-dopant and an interstitial oxygen (NbTi+Oi)) were considered. The density of states, effective mass, Bader charge, charge density, and electron localization function were calculated. The results show that in the NbTi+VO cell both eg and t2g levels of Ti 3d orbits make contributions to the electronic conductivity, and the oxygen vacancies (VO) collaborate with Nb-dopants to favor the high electrical conductivity by inducing the Nb-dopants to release more excess charges. In NbTi+Oi, an unoccupied impurity level appears in the band gap, which served as an acceptor level and suppressed the electronic conductivity. The results qualitatively coincide with experimental results and possibly provide insights into the preparation of TCOs with desirable conductivity.

Yuan Hao, Tang Xiao-Yan, Zhang Yi-Men, Zhang Yu-Ming, Song Qing-Wen, Yang Fei, Wu Hao
Chin. Phys. B. 2014, 23 (5): 057102 doi: 10.1088/1674-1056/23/5/057102
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Based on the theoretical analysis of the 4H-SiC Schottky-barrier diodes (SBDs) with field plate termination, 4H-SiC SBD with semi-insulating polycrystalline silicon (SIPOS) FP termination has been fabricated. The relative dielectric constant of the SIPOS dielectric first used in 4H-SiC devices is 10.4, which is much higher than that of the SiO2 dielectric, leading to benefitting the performance of devices. The breakdown voltage of the fabricated SBD could reach 1200 V at leakage current 20 uA, about 70% of the theoretical breakdown voltage. Meanwhile, both of the simulation and experimental results show that the length of the SIPOS FP termination is an important factor for structure design.

Chen Zhao, Wen Xiao-Li, Niu Li-Wei, Duan Meng-Meng, Zhang Yun-Jie, Dong Xiang-Lei, Chen Chang-Le
Chin. Phys. B. 2014, 23 (5): 057103 doi: 10.1088/1674-1056/23/5/057103
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ZnCo2O4/Si heterostructures have been fabricated by a pulsed laser deposition method, and their transport behaviors and photovoltaic properties have been characterized. The ZnCo2O4/Si heterostructures show a good rectifying behavior at five different temperatures ranging from 50 K to 290 K. The measurements of the photovoltaic response reveal that a photovoltage of 33 mV is generated when the heterostructures are illuminated by a 532 nm laser of 250 mW/cm2 and mechanically chopped at 2500 Hz. Both the photocurrent and the photovoltage clearly increase with the increase of the laser intensity at room temperature. However, the photovoltage peak of the heterostructures decreases with the increase of the temperature. This work may open new perspectives for ZnCo2O4/Si heterostructure-based devices.
Jiang Zhong-Qian, Yao Gang, An Xin-You, Fu Ya-Jun, Cao Lin-Hong, Wu Wei-Dong, Wang Xue-Min
Chin. Phys. B. 2014, 23 (5): 057104 doi: 10.1088/1674-1056/23/5/057104
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The Cu2O and Au-doped Cu2O films are prepared on MgO (001) substrates by pulsed laser deposition. The X-ray photoelectron spectroscopy proves that the films are of Au-doped Cu2O. The optical absorption edge decreases by 1.6% after Au doping. The electronic and optical properties of pure and Au-doped cuprite Cu2O films are investigated by the first principles. The calculated results indicate that Cu2O is a direct band-gap semiconductor. The scissors operation of 1.64 eV has been carried out. After correcting, the band gaps for pure and Au doped Cu2O are about 2.17 eV and 2.02 eV, respectively, decreasing by 6.9%. All of the optical spectra are closely related to the dielectric function. The optical spectrum red shift corresponding to the decreasing of band gap, and the additional absorption are observed in the visible region for Au doped Cu2O film. The experimental results are generally in agreement with the calculated results. These results indicate that Au doping could become one of the important factors influencing the photovoltaic activity of Cu2O film.
Shang En-Ming, Pan Yi-Ming, Shao Lu-Bing, Wang Bai-Gen
Chin. Phys. B. 2014, 23 (5): 057201 doi: 10.1088/1674-1056/23/5/057201
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By using the non-equilibrium Green's function technique, we investigate the electronic transport properties in an Aharonov-Bohm interferometer coupling with Majorana fermions. We find a fixed unit conductance peak which is independent of the other factors when the topological superconductor is grounded. Especially, an additional phase appears when the topological superconductor is in the strong Coulomb regime, which induces a new conductance resonant peak compared with the structure of replacing the topological superconductor by a quantum dot, and the conductance oscillation with the magnetic flux reveals a 2π phase shift by raising (lowering) a charge on the capacitor.

Wang Deng-Jing, Ma Jun-Jie, Wang Mei, Wang Ru-Wu, Li Yun-Bao
Chin. Phys. B. 2014, 23 (5): 057202 doi: 10.1088/1674-1056/23/5/057202
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An oxide p-n heterojunction composed of Pr0.6Ca0.4MnO3 film, with a charge order (CO) transition, and 1wt% Nb-doped SrTiO3 substrate is fabricated, and the transport properties of the interface are experimentally studied. The rectifying behavior of the junction, well described by the Newman equation, is observed, indicating that tunneling is the dominant process by which the carriers pass through the interface. Above and below the CO transition temperature, satisfactory linear dependencies of junction resistance on temperature are observed, but the slopes of the two resistance-temperature relations are different. The CO process is believed to be relevant to this difference.

Wang Xiang-Dong, Deng Xiao-Chuan, Wang Yong-Wei, Wang Yong, Wen Yi, Zhang Bo
Chin. Phys. B. 2014, 23 (5): 057203 doi: 10.1088/1674-1056/23/5/057203
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This paper describes the successful fabrication of 4H-SiC junction barrier Schottky (JBS) rectifiers with a linearly graded field limiting ring (LG-FLR). Linearly variable ring spacings for the FLR termination are applied to improve the blocking voltage by reducing the peak surface electric field at the edge termination region, which acts like a variable lateral doping profile resulting in a gradual field distribution. The experimental results demonstrate a breakdown voltage of 5 kV at the reverse leakage current density of 2 mA/cm2 (about 80% of the theoretical value). Detailed numerical simulations show that the proposed termination structure provides a uniform electric field profile compared to the conventional FLR termination, which is responsible for 45% improvement in the reverse blocking voltage despite a 3.7% longer total termination length.

Wu De-Qi, Ding Wu-Chang, Yang Shan-Shan, Jia Rui, Jin Zhi, Liu Xin-Yu
Chin. Phys. B. 2014, 23 (5): 057204 doi: 10.1088/1674-1056/23/5/057204
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Material structures and device structures of a 100-GHz InP based transferred-electron device are designed in this paper. In order to successfully fabricate the Gunn devices operating at 100 GHz, the InP substrate was entirely removed by mechanical thinning and wet etching. The Gunn device was connected to a tripler link and a high RF (radio frequency) output with power of 2 mW working at 300 GHz was obtained, which is high enough for applications in current military electronic systems.
Li Zhen-Peng, Men Chuan-Ling, Wang Wan, Cao Jun
Chin. Phys. B. 2014, 23 (5): 057205 doi: 10.1088/1674-1056/23/5/057205
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Graphene-ZnO nanocomposites were synthesized successfully through a one-step solvothermal approach. The morphology, structure, and composition of the prepared nanocomposites were investigated by scanning electron microscopy (SEM), transmission electron microscope (TEM), laser micro Raman spectroscopy, and Fourier transform infra-red spectroscopy (FT-IR). The outcomes confirmed that this approach is comparatively steady, practicable, and operable compared with other reported methods. The electrochemical performance of the graphene-ZnO electrodes was analyzed through cyclic voltammetry, altering-current (AC) impedance, and chronopotentiometry tests. The graphene-ZnO electrodes exhibited an improved electrode performance with higher specific capacitance (115 F·g-1), higher electrochemical stability, and higher energy density than the graphene electrodes and most reported graphene-ZnO electrodes. Graphene-ZnO nanocomposites have a steady reversible charge/discharge behavior, which makes them promising candidates for electrochemical capacitors (ECs).
Liao Xue-Yang, Zhang Kai, Zeng Chang, Zheng Xue-Feng, En Yun-Fei, Lai Ping, Hao Yue
Chin. Phys. B. 2014, 23 (5): 057301 doi: 10.1088/1674-1056/23/5/057301
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Frequency dependent conductance measurements are implemented to investigate the interface states in Al2O3/AlGaN/GaN metal-oxide-semiconductor (MOS) structures. Two types of device structures, namely, the recessed gate structure (RGS) and the normal gate structure (NGS), are studied in the experiment. Interface trap parameters including trap density Dit, trap time constant τit, and trap state energy ET in both devices have been determined. Furthermore, the obtained results demonstrate that the gate recess process can induce extra traps with shallower energy levels at the Al2O3/AlGaN interface due to the damage on the surface of the AlGaN barrier layer resulting from reactive ion etching (RIE).
M. Bagheri Tagani, H. Rahimpour Soleimani
Chin. Phys. B. 2014, 23 (5): 057302 doi: 10.1088/1674-1056/23/5/057302
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Using Keldysh nonequilibrium Green function formalism and mapping a many-body electron-phonon interaction onto a one body problem, the electron transport through a serially coupled double quantum dot system is analyzed. The influence of the electron-phonon interaction, temperature, detuning, and interdot tunneling on the transmission coefficient and current is studied. Our results show that the electron-phonon interaction results in the appearance of the side peaks in the transmission coefficient, whose height is strongly dependent on the phonon temperature. We have also found that the inequality of the electron-phonon interaction strength in two dots gives rise to an asymmetry in the current-voltage characteristic. In addition, the temperature difference between the phonon and electron subsystems results in the reduction of the saturated current and the destruction of the step-like behavior of the current. It is also observed that the detuning can improve the magnitude of the current by compensating the mismatch of the quantum dots energy levels induced by the electron-phonon interaction.
Zhang Yong-Ping, Chen Zhi-Zhan, Lu Wu-Yue, Tan Jia-Hui, Cheng Yue, Shi Wang-Zhou
Chin. Phys. B. 2014, 23 (5): 057303 doi: 10.1088/1674-1056/23/5/057303
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The Ti electrode was deposited on the (0001 ) face of an n-type 4H-SiC substrate by magnetron sputtering. The effect of the electrode placement method during the annealing treatment on the contact property was carefully investigated. When the electrode was faced to the Si tray and annealed, it showed ohmic behavior, otherwise it showed a non-ohmic property. X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), and atomic force microscopy (AFM) were used to characterize the electrode phase, composition, thickness, and surface morphology. The additional silicon introduced from the Si tray played a key role in the formation of the ohmic contact on the Ti/4H-SiC contact.

Zhang Yue, Zhuo Qing-Qing, Liu Hong-Xia, Ma Xiao-Hua, Hao Yue
Chin. Phys. B. 2014, 23 (5): 057304 doi: 10.1088/1674-1056/23/5/057304
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The effect of the static negative bias temperature (NBT) stress on a p-channel power metal-oxide-semiconductor field-effect transistor (MOSFET) is investigated by experiment and simulation. The time evolution of the negative bias temperature instability (NBTI) degradation has the trend predicted by the reaction-diffusion (R-D) model but with an exaggerated time scale. The phenomena of the flat-roof section are observed under various stress conditions, which can be considered as the dynamic equilibrium phase in the R-D process. Based on the simulated results, the variation of the flat-roof section with the stress condition can be explained.
Lei Xiao-Yi, Liu Hong-Xia, Zhang Yue, Ma Xiao-Hua, Hao Yue
Chin. Phys. B. 2014, 23 (5): 057305 doi: 10.1088/1674-1056/23/5/057305
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The degradation produced by hot carrier (HC) in ultra-deep sub-micron n-channel metal oxide semiconductor field effect transistor (nMOSFET) has been analyzed in this paper. The generation of negatively charged interface states is the predominant mechanism for the ultra-deep sub-micron nMOSFET. According to our lifetime model of p-channel MOFET (pMOFET) that was reported in a previous publication, a lifetime prediction model for nMOSFET is presented and the parameters in the model are extracted. For the first time, the lifetime models of nMOFET and pMOSFET are unified. In addition, the model can precisely predict the lifetime of the ultra-deep sub-micron nMOSFET and pMOSFET.
Fang Sheng, Guo Hua
Chin. Phys. B. 2014, 23 (5): 057401 doi: 10.1088/1674-1056/23/5/057401
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The relatively long scan time is still a bottleneck for both clinical applications and research of magnetic resonance imaging. To reduce the data acquisition time, we propose a novel fast magnetic resonance imaging method based on parallel variable-density spiral acquisition, which combines undersampling optimization and nonlocal total variation reconstruction. The undersampling optimization promotes the incoherence of resultant aliasing artifact via the “worst-case” residual error metric, and thus accelerates the data acquisition. Moreover, nonlocal total variation reconstruction is utilized to remove such an incoherent aliasing artifact and so improve image quality. The feasibility of the proposed method is demonstrated by both numerical phantom simulation and in vivo experiment. The experimental results show that the proposed method can achieve high acceleration factor and effectively remove an aliasing artifact from data undersampling with well-preserved image details. The image quality is better than that achieved with the total variation method.

Hamidreza Emamipour
Chin. Phys. B. 2014, 23 (5): 057402 doi: 10.1088/1674-1056/23/5/057402
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Based on the scattering theory, we calculate the Josephson current in a junction between two ferromagnetic superconductors as a function of the interface potential z. We consider the ferromagnetic superconductor (FS) in three different Cooper pairing states: spin singlet s-wave pairing (SWP) state, spin triplet opposite spin pairing (OSP) state, and spin triplet equal spin pairing (ESP) state. We find that the critical Josephson current as a function of z shows clear differences among the SWP, OSP, and ESP states. The obtained results can be used as a useful tool for determining the pair symmetry of the ferromagnetic superconductors.
Jiang Tao, He Fei-Si, Jiao Fei, He Fa, Lu Xiang-Yang, Zhao Kui, Zhao Hong-Yun, You Yu-Song, Chen Lin
Chin. Phys. B. 2014, 23 (5): 057403 doi: 10.1088/1674-1056/23/5/057403
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A new idea is proposed by the PKU group to improve the magnetic properties of the Type-Ⅱ superconductor niobium. Rare earth elements like scandium and yttrium are doped into ingot niobium during the smelting processes. A series of experiments have been done since 2010. The preliminary testing results show that the magnetic properties of niobium materials have changed with different doping elements and proportions while the superconductive transition temperature does not change very much. This method may increase the superheating magnetic field of niobium so as to improve the performance of the niobium cavity, which is a key component of SRF accelerators. A Tesla-type single-cell cavity made of scandium-doped niobium is being fabricated.

Zhang Kai-Cheng, Li Yong-Feng, Liu Yong, Chi Feng
Chin. Phys. B. 2014, 23 (5): 057501 doi: 10.1088/1674-1056/23/5/057501
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The magnetic properties of two-dimensional antiferromagnet NiGa2S4 have attracted much attention and yet some problems are far from being solved. We investigate the magnetic properties of NiGa2S4 by Monte Carlo simulations. A new spin-interacting model is proposed to describe the system, and the specific heat together with the doping effect of nonmagnetic impurity is studied by simulations. The double peaks of the specific heat as well as other behaviors are well reproduced. We also compare our results with those of other models, and the underlying physics is discussed.
Uzma G
Chin. Phys. B. 2014, 23 (5): 057502 doi: 10.1088/1674-1056/23/5/057502
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Since ferrites are highly sensitive to the additives present in or added to them, extensive work, to improve the properties of basic ferrites, has been carried out on these aspects. The present paper reports the effects of composition, frequency, and temperature on the dielectric behavior of a series of CuxZn1-xFe2O4 ferrite samples prepared by the usual ceramic technique. In order to improve the properties of the samples, low cost Fe2O3 having 0.5 wt.% Si as an additive is selected to introduce into the system. The dielectric constant increases by increasing the Cu content, as the electron exchange of Cu2+<=>Cu+ is responsible for the conduction and the polarization. However, the addition of Si could decrease the dielectric constant as it suppresses the ceramic grain growth and promotes the quality factor at higher frequencies. Dielectric constant ε' and loss tangent tanδ of the mixed Cu-Zn ferrite decrease with increasing frequency, attributed to the Maxwell-Wagner polarization, which increases as the temperature increases.
Fu Shu-Fang, Liang Hong, Zhou Sheng, Wang Xuan-Zhang
Chin. Phys. B. 2014, 23 (5): 057503 doi: 10.1088/1674-1056/23/5/057503
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We present a method to increase the sum-frequency (SF) outputs in dielectric/antiferromagnet(AF)/Ag sandwich structures for a fixed input power. Two incident waves simultaneously illuminate the upper surface, one is oblique and the other is normal to it. Numerical calculations based on the SiO2/MnF2/Ag and ZnF2/MnF2/Ag structures show that the SF outputs on the upper film increase a few times as compared to those of a single AF film when the thickness of the AF film is one-quarter of the vacuum wavelength. Moreover, the SF outputs generated near the higher resonant frequency will be higher than those obtained near the lower resonant frequency. An optimum AF film thickness is achieved through investigating its effect on the SF outputs in the two different dielectric sandwich structures.
A. Tataroğlu, A. A. Hendi, R. H. Alorainy, F. Yakuphanoğlu
Chin. Phys. B. 2014, 23 (5): 057504 doi: 10.1088/1674-1056/23/5/057504
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A novel aluminum iron oxide (Al/AlFe2O4/p-Si) Schottky photodiode was successfully fabricated via the sol-gel coating process. The microstructure of the spinel ferrite (AlFe2O4) was examined by atomic force microscopy. The current-voltage characteristics of the fabricated photodiode were studied under dark and different illumination conditions at room temperature. By using the thermionic emission theory, the forward bias I-V characteristics of the photodiode are analyzed to determine the main electrical parameters such as the ideality factor (n) and barrier height (ΦB0) of the photodiode. The values of n and ΦB0 for all conditions are found to be about 7.00 and 0.76 eV, respectively. In addition, the values of series resistance (Rs) are determined using Cheung's method and Ohm's law. The values of Rs and shunt resistance (Rsh) are decreased with the increase of illumination intensity. These new spinel ferrites will open a new avenue to other spinel structure materials for optoelectronic devices in the near future.
Cui Hang, Zhu Pei-Fen, Zhu Hong-Yang, Li Hong-Dong, Cui Qi-Liang
Chin. Phys. B. 2014, 23 (5): 057801 doi: 10.1088/1674-1056/23/5/057801
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The photoluminescence (PL) properties of Y2O3:Eu3+ nanophosphors were systematically investigated with the goal of improving the color quality and quantum efficiency of Y2O3:Eu3+ nanophosphors for potential applications in nano-scale devices. The emission spectra, excitation spectra and fluorescence decay curves were employed to trace the energy transfer process from Eu3+ at C3i site to Eu3+ at C2 site. The experimental results show that the energy transfer process becomes more and more efficient with the increase in the Eu3+ concentration. The emission of Eu3+ at C2 site is favorable as it has high radiative efficiency and better color quality. The successful suppress of the emission Eu3+ at C3i is especially important for its applications in general illumination or display technology. The quantum efficiency and color quality of Y2O3:Eu3+ can be improved by controlling the energy transfer between the Eu3+ at S6 site and Eu3+ at C2 site.
Ma Chen-Shuo, Jiao Qing, Li Long-Ji, Zhou Da-Cheng, Yang Zheng-Wen, Song Zhi-Guo, Qiu Jian-Bei
Chin. Phys. B. 2014, 23 (5): 057802 doi: 10.1088/1674-1056/23/5/057802
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The Er3+/Yb3+ co-doped transparent oxyfluoride glass-ceramics containing CaF2 nano-crystals were successfully prepared. After heat treatments, transmission electron microscopy (TEM) images showed that CaF2 nano-crystals of 20-30 nm in diameter precipitated uniformly in the glass matrix. Comparing with the host glass, high efficiency upconversion luminescence of Er3+ at 540 nm and 658 nm was observed in the glass ceramics under the excitation of 980 nm. Moreover, the size of the precipitated nano-crystals can be controlled by heat-treatment temperature and time. With the increase of the nano-crystal size, the intensity of the red emission increased more rapidly than that of the green emission. The energy transfer process of Er3+ and Yb3+ was convinced and the possible mechanism of Er3+ up-conversion was discussed.

Xue Shu-Wen, Zhang Jun, Quan Jun
Chin. Phys. B. 2014, 23 (5): 057803 doi: 10.1088/1674-1056/23/5/057803
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N-ion-implantation to a fluence of 1× 1015 ions/cm2 was performed on ZnS thin films deposited on glass substrates by using the vacuum evaporation method. The films were annealed in flowing nitrogen at 400 ℃-500 ℃ after N-ion-implantation to repair the ion-beam-induced structural destruction and electrically activate the dopants. Effects of ion-implantation and post-thermal annealing on ZnS films were investigated by X-ray diffraction (XRD), photoluminescence (PL), optical transmittance, and electrical measurements. Results showed that the diffraction peaks and PL intensities were decreased by N-ion-implantation, but fully recovered by further annealing at 500 ℃. In this experiment, all films exhibited high resistivity due to the partial dopant activation under 500 ℃.
Pan Xue-Cong, Xia Xiao-Xiang, Wang Li
Chin. Phys. B. 2014, 23 (5): 057804 doi: 10.1088/1674-1056/23/5/057804
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Effects of oblique incidence of terahertz waves on the response of planar split-ring resonators are investigated, both experimentally and by simulation. It is found that the incident angle dependent phase delay and coupling conditions of neighboring split-ring resonator (SRR) units play important roles and greatly change both the transmission and reflection spectra for the resonant feature of linear charge oscillations. Our results show that the SRR structure-supported magnetoelectric couplings at oblique excitation are trivial and can be ignored. A highly symmetric response is found in the cross-polarization effects, which may manifest the bianisotropic properties of the SRR system but this needs further study.
INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY
Zhang Shi-Ying, Xiu Xiang-Qian, Hua Xue-Mei, Xie Zi-Li, Liu Bin, Chen Peng, Han Ping, Lu Hai, Zhang Rong, Zheng You-Dou
Chin. Phys. B. 2014, 23 (5): 058101 doi: 10.1088/1674-1056/23/5/058101
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A series of experiments were conducted to systematically study the effects of etching conditions on GaN by a convenient photo-assisted chemical (PAC) etching method. The solution concentration has an evident influence on the surface morphology of GaN and the optimal solution concentrations for GaN hexagonal pyramids have been identified. GaN with hexagonal pyramids have higher crystal quality and tensile strain relaxation compared with as-grown GaN. A detailed analysis about evolution of the size, density and optical property of GaN hexagonal pyramids is described as a function of light intensity. The intensity of photoluminescence spectra of GaN etched with hexagonal pyramids significantly increases compared to that of as-grown GaN due to multiple scattering events, high quality GaN with pyramids and the Bragg effect.
Ma Yan-Bing, Zhang Huai-Wu, Li Yuan-Xun, Wang Yi-Cheng, Lai Wei-En, Li Jie
Chin. Phys. B. 2014, 23 (5): 058102 doi: 10.1088/1674-1056/23/5/058102
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We report the design, fabrication, and characterization of a dual-band and polarization-insensitive metamaterial absorber (MA), which consists of periodically arranged fractal Koch curves acting as the top resonator array and a metallic ground plane separated by a dielectric spacer. Compared with conventional MAs, a more compact size and multi-frequency operation are achieved by using fractal geometry as the unit cell of the MA. Both the effective medium theory and the multi-reflection interference theory are employed to investigate the underlying physical mechanism of the proposed terahertz MA, and results indicate that the latter theory is not suitable for explaining the absorption mechanism in our investigated structure. Two absorption peaks are observed at 0.226 THz and 0.622 THz with absorptivities of 91.3% and 95.6% respectively and good agreements between the full-wave simulation and experimental results are achieved.
Zeng Peng, Zhang Ping, Hu Ming, Ma Shuang-Yun, Yan Wen-Jun
Chin. Phys. B. 2014, 23 (5): 058103 doi: 10.1088/1674-1056/23/5/058103
Full Text: [PDF 2449 KB] (6)
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We report on the fabrication and performance of a room-temperature NO2 gas sensor based on a WO3 nanowires/porous silicon hybrid structure. The W18O49 nanowires are synthesized directly from a sputtered tungsten film on a porous silicon (PS) layer under heating in an argon atmosphere. After a carefully controlled annealing treatment, WO3 nanowires are obtained on the PS layer without losing the morphology. The morphology, phase structure, and crystallinity of the nanowires are investigated by using field emission scanning electron microscopy (FESEM), X-ray diffractometer (XRD), and high-resolution transmission electron microscopy (HRTEM). Comparative gas sensing results indicate that the sensor based on the WO3 nanowires exhibits a much higher sensitivity than that based on the PS and pure WO3 nanowires in detecting NO2 gas at room temperature. The mechanism of the WO3 nanowires/PS hybrid structure in the NO2 sensing is explained in detail.

Ningthoujam Surajkumar Singh, Shougaijam Dorendrajit Singh, Sanoujam Dhiren Meetei
Chin. Phys. B. 2014, 23 (5): 058104 doi: 10.1088/1674-1056/23/5/058104
Full Text: [PDF 949 KB] (5)
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We present in this paper a study of the structural and photoluminescence (PL) properties of terbium (Tb) doped zinc oxide (ZnO) nanoparticles synthesized by a simple low temperature chemical precipitation method, using zinc acetate and terbium nitrate in an isopropanol medium with diethanolamine (DEA) as the capping agent at 60 ℃. The as-prepared samples were heat treated and the PL of the annealed samples were studied. The prepared nanoparticles were characterized with X-ray diffraction (XRD). The XRD patterns show the pattern of typical ZnO nanoparticles and correspond with the standard XRD pattern given by JCPDS card No. 36-1451, showing the hexagonal phase structure. The PL intensity was enhanced due to Tb3+ doping, and it decreased at higher concentrations of Tb3+ doping after reaching a certain optimum concentration. The PL spectra of Tb3+ doped samples exhibited blue, bluish green, and green emissions at 460 nm (5D3 - 7F3), 484 nm (5D4 - 7F6), and 530 nm (5D4 - 7F5), respectively, which were more intense than the emissions for the undoped ZnO sample. Based on the results, an energy level schematic diagram was proposed to explain the possible electron transition processes.

Huang Shi-Hua, Liu Jian
Chin. Phys. B. 2014, 23 (5): 058105 doi: 10.1088/1674-1056/23/5/058105
Full Text: [PDF 341 KB] (6)
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Si-rich Si1-xCx/SiC multilayer thin films are prepared using magnetron sputtering, subsequently followed by thermal annealing in the range of 800-1200 ℃. The influences of annealing temperature (Ta) on the formation of Si and/or SiC nanocrystals (NCs) and on the electrical characteristics of the multilayer film are investigated by using a variety of analytical techniques, including X-ray diffraction (XRD), Raman spectroscopy and Fourier transform infrared spectrometry (FT-IR), current-voltage (I-V) technique, and capacitance-voltage (C-V) technique. XRD and Raman analyses indicate that Si NCs begin to form in samples for Ta ≥ 800 ℃. At annealing temperatures of 1000 ℃ or higher, the formation of Si NCs is accompanied by the formation of SiC NCs. With the increase in the annealing temperature, the shift of FT-IR Si-C bond absorption spectra toward a higher wave number along with the change of band shape can be explained by a Si-C transitional phase between the loss of substitutional carbon and the formation of SiC precipitates and a precursor for the growth of SiC crystalline. The C-V and I-V results indicate that the interface quality of Si1-xCx/SiC multilayer film is improved significantly and the leakage current is reduced rapidly for Ta ≥ 1000 ℃, which can be ascribed to the formation of Si and SiC NCs.

Van Ha Nguyen, Wonkyeong Park, Namtae Kim, Hanjung Song
Chin. Phys. B. 2014, 23 (5): 058201 doi: 10.1088/1674-1056/23/5/058201
Full Text: [PDF 1121 KB] (4)
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This paper presents a compact and low-power-based discrete-time chaotic oscillator based on a carbon nanotube field-effect transistor implemented using Wong and Deng's well-known model. The chaotic circuit is composed of a nonlinear circuit that creates an adjustable chaos map, two sample and hold cells for capture and delay functions, and a voltage shifter that works as a buffer and adjusts the output voltage for feedback. The operation of the chaotic circuit is verified with the SPICE software package, which uses a supply voltage of 0.9 V at a frequency of 20 kHz. The time series, frequency spectra, transitions in phase space, sensitivity with the initial condition diagrams, and bifurcation phenomena are presented. The main advantage of this circuit is that its chaotic signal can be generated while dissipating approximately 7.8u W of power, making it suitable for embedded systems where many chaos-signal generators are required on a single chip.

Qiao Shi-Zhu, Kang Shi-Shou, Qin Yu-Feng, Li Qiang, Zhong Hai, Kang Yun, Yu Shu-Yun, Han Guang-Bing, Yan Shi-Shen, Mei Liang-Mo
Chin. Phys. B. 2014, 23 (5): 058501 doi: 10.1088/1674-1056/23/5/058501
Full Text: [PDF 1657 KB] (3)
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Copper phthalocyanine junctions, fabricated by magnetron sputtering and evaporating methods, show multi-polar (unipolar and bipolar) resistance switching and the memory effect. The multi-polar resistance switching has not been observed simultaneously in one organic material before. With both electrodes being cobalt, the unipolar resistance switching is universal. The high resistance state is switched to the low resistance state when the bias reaches the set voltage. Generally, the set voltage increases with the thickness of copper phthalocyanine and decreases with increasing dwell time of bias. Moreover, the low resistance state could be switched to the high resistance state by absorbing the phonon energy. The stability of the low resistance state could be tuned by different electrodes. In Au/copper phthalocyanine/Co system, the low resistance state is far more stable, and the bipolar resistance switching is found. Temperature dependence of electrical transport measurements demonstrates that there are no obvious differences in the electrical transport mechanism before and after the resistance switching. They fit quite well with Mott variable range hopping theory. The effect of Al2O3 on the resistance switching is excluded by control experiments. The holes trapping and detrapping in copper phthalocyanine layer are responsible for the resistance switching, and the interfacial effect between electrodes and copper phthalocyanine layer affects the memory effect.
Cai Jin-Xin, Sun Hui-Qing, Zheng Huan, Zhang Pan-Jun, Guo Zhi-You
Chin. Phys. B. 2014, 23 (5): 058502 doi: 10.1088/1674-1056/23/5/058502
Full Text: [PDF 433 KB] (6)
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GaN-based multiple quantum well light-emitting diodes (LEDs) with conventional and superlattice barriers have been investigated numerically. Simulation results demonstrate using InGaN/GaN superlattices as barriers can effectively enhance performances of the GaN-Based LEDs, mainly owing to the improvement of hole injection and transport among the MQW active region. Meanwhile, the improved electron capture decreases the electron leakage and alleviates the efficiency droop. The weak polarization field induced by the superlattice structure strengthens the intensity of the emission spectrum and leads to a blue-shift relative to the conventional one.
Wang Xue-Feng, Wang Jian-Guo, Wang Guang-Qiang, Li Shuang, Xiong Zheng-Feng
Chin. Phys. B. 2014, 23 (5): 058701 doi: 10.1088/1674-1056/23/5/058701
Full Text: [PDF 478 KB] (9)
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Based on the hot electron effect in a semiconductor, an overmoded resistive sensor for 0.3-0.4 THz band is investigated. The distribution of electromagnetic field components, voltage standing wave ratio (VSWR), and the average electric field in the silicon block are obtained by using the three-dimensional finite-difference time-domain (FDTD) method. By adjusting several factors (such as the length, width, height and specific resistance of the silicon block) a novel sensor with optimal structural parameters that can be used as a power measurement device for high power terahertz pulse directly is proposed. The results show that the sensor has a relative sensitivity of about 0.24 kW-1, with a fluctuation of relative sensitivity of no more than ± 22%, and the maximum of VSWR is 2.74 for 0.3-0.4 THz band.
Han Yue, Cai Guo-Biao, Xu Xu, Renou Bruno, Boukhalfa Abdelkrim
Chin. Phys. B. 2014, 23 (5): 058901 doi: 10.1088/1674-1056/23/5/058901
Full Text: [PDF 1948 KB] (2)
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A novel approach to extract flame fronts, which is called the conditioned level-set method with block division (CLSB), has been developed. Based on a two-phase level-set formulation, the conditioned initialization and region-lock optimization appear to be beneficial to improve the efficiency and accuracy of the flame contour identification. The original block-division strategy enables the approach to be unsupervised by calculating local self-adaptive threshold values autonomously before binarization. The CLSB approach has been applied to deal with a large set of experimental data involving swirl-stabilized premixed combustion in diluted regimes operating at atmospheric pressures. The OH-PLIF measurements have been carried out in this framework. The resulting images are, thus, featured by lower signal-to-noise ratios (SNRs) than the ideal image; relatively complex flame structures lead to significant non-uniformity in the OH signal intensity; and, the magnitude of the maximum OH gradient observed along the flame front can also vary depending on flow or local stoichiometry. Compared with other conventional edge detection operators, the CLSB method demonstrates a good ability to deal with the OH-PLIF images at low SNR and with the presence of a multiple scales of both OH intensity and OH gradient. The robustness to noise sensitivity and intensity inhomogeneity has been evaluated throughout a range of experimental images of diluted flames, as well as against a circle test as Ground Truth (GT).
Pan Wei, Xue Yu, Zhao Rui, Lu Wei-Zhen
Chin. Phys. B. 2014, 23 (5): 058902 doi: 10.1088/1674-1056/23/5/058902
Full Text: [PDF 3854 KB] (6)
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In this paper, the Biham-Middleton-Levine (BML) model with consideration of cooperative willingness has been proposed to study the traffic flow in urban networks. An evolutionary game with a cooperative willingness profile is introduced to deal with conflicts between disturbing neighbors. Simulation results suggest that imitating cooperative willingness can ease the effect of premature seizure on traffic flow due to the introduction of evolutionary games. Phase diagrams with a strategy profile and cooperative willingness profile have been investigated in detail. Our findings also prove that by imitating the more successful, cooperative willingness instead of simply the more successful strategies, the evolution of cooperation is significantly promoted, hence improving the order of cooperation and relieving the pressure of traffic networks.
GEOPHYSICS, ASTRONOMY, AND ASTROPHYSICS
Wu Ze-Wei, Li Hao, Xu Jian-Hua, Li Tian-Ming, Li Jia-Yin
Chin. Phys. B. 2014, 23 (5): 059201 doi: 10.1088/1674-1056/23/5/059201
Full Text: [PDF 1799 KB] (4)
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An improved method for analyzing the radiation characteristic of the quasi-optical launcher is presented. The launcher is decomposed into an open-ended waveguide and a helical cut according to the proposed method. The radiation from the open-ended waveguide is obtained by using the Stratton-Chu formulation. The helical cut's radiation is calculated based on its current distribution, gained by several iterative computations, which helps to improve the calculation accuracy since the diffraction effect introduced by the helical cut is considered during the calculation. The proposed method is used to study different launches, and the results are compared with the existing results. Good agreement is achieved between the results obtained from our proposed method and the reported results. The present results provide an alternative for analysis and synthesis of the optical-mode converter.
He Su-Hong, Feng Tai-Chen, Gong Yan-Chun, Huang Yan-Hua, Wu Cheng-Guo, Gong Zhi-Qiang
Chin. Phys. B. 2014, 23 (5): 059202 doi: 10.1088/1674-1056/23/5/059202
Full Text: [PDF 410 KB] (3)
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A climate network of extreme rainfall over eastern Asia is constructed for the period of 1971-2000, employing the tools of complex networks and a measure of nonlinear correlation called event synchronization (ES). Using this network, we predict the extreme rainfall for several cases without delay and with n-day delay (1 ≤ n ≤ 10). The prediction accuracy can reach 58% without delay, 21% with 1-day delay, and 12% with n-day delay (2 ≤ n ≤ 10). The results reveal that the prediction accuracy is low in years of a weak east Asia summer monsoon (EASM) or 1 year later and high in years of a strong EASM or 1 year later. Furthermore, the prediction accuracy is higher due to the many more links that represent correlations between different grid points and a higher extreme rainfall rate during strong EASM years.

Chin. Phys. B
 2014 2014 Vol.23 No.6  2014-04-16
﻿ Chin. Phys. B
 Accepts Note: The papers published below have been accepted by Chinese Physics B, and have not been assigned to issues. And they will continue to be available on this page until they are assigned to an issue.      >>> More
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null
Accept: 2013-11-07
Show Abstract
Present study reports the Magnetization and magnetrotransport properties of PrFe1-xNixO3 thin films grown by pulsed laser ablation technique on a LaAlO3 substrate. From DC M/H plots of these films, weak ferromagnetism or ferrimagnetism behavior are observed. With Ni substitution, reduction in saturation magnetization is also seen. With Ni doping, a variation in saturation field (Hs), coercive filed (Hc), Weiss temperature (?) and effective magnetic moment (peff) are seen. A small change of magnetroresitance with application of higher filed is observed. Various essential parameters like density of state (Nf) at Fermi level, Mott’s characteristic temperature (T0) and activation energy (Ea) in presence and in absence of magnetic field were calculated. The present observed magnetic properties are related to the change of Fe-O bond length (causing an overlap between the oxygen p orbital and iron d orbital) and as well as deviation of the Fe–O–Fe angle from 180°. Reduction of magnetic domains after Ni doping is also explored to explain the present observed magnetic behavior of the system. The impact on various transport properties in these thin films after doping indicates a distortion in the lattice structure and consequently on influence on single particle band width, due to stress-induced reduction in unit cell volume.
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[Manu ID:131408]    Existence of Hartmann layer in the peristalsis for Sisko fluid.

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

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

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

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

Zhang Xin-Chun, Guo Cheng-Jun
2013, 22(12): 128401. Full Text: PDF (352KB) (7501)
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This paper focuses on the cubature Kalman filters (CKFs) for the nonlinear dynamic systems with additive process and measurement noise. As is well known, the heart of the CKF is the third-degree spherical–radial cubature rule which makes it possible to compute the integrals encountered in nonlinear filtering problems. However, the rule not only requires computing the integration over an n-dimensional spherical region, but also combines the spherical cubature rule with the radial rule, thereby making it difficult to construct higher-degree CKFs. Moreover, the cubature formula used to construct the CKF has some drawbacks in computation. To address these issues, we present a more general class of the CKFs, which completely abandons the spherical–radial cubature rule. It can be shown that the conventional CKF is a special case of the proposed algorithm. The paper also includes a fifth-degree extension of the CKF. Two target tracking problems are used to verify the proposed algorithm. The results of both experiments demonstrate that the higher-degree CKF outperforms the conventional nonlinear filters in terms of accuracy.
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Preparing Cu2ZnSnS4 films using the co-electro-deposition method with ionic liquids

Chen Yong-Sheng,Wang Ying-Jun,Li Rui,Gu Jin-Hua,Lu Jing-Xiao,Yang Shi-E
2012, 21(5): 058801. Full Text: PDF (12057KB) (7154)
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Cu2ZnSnS4 (CZTS) films are successfully prepared by co-electrodeposition in aqueous ionic solution and sulfurized in elemental sulfur vapor ambient at 400℃ for 30 min using nitrogen as the protective gas. It is found that the CZTS film synthesized at Cu/(Zn+Sn)=0.71 has a kesterite structure, a bandgap of about 1.51 eV, and an absorption coefficient of the order of 104 cm-1. This indicates that the co-electrodeposition method with aqueous ionic solution is a viable process for the growth of CZTS films for application in photovoltaic devices.
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Structural and electronic characteristics of pure and doped ZnO varistors

A. Sedky, E. El-Suheel
2012, 21(11): 116103. Full Text: PDF (18007KB) (6130)
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We report here structural, surface morphology, mechanical, and current-voltage characteristics of Zn1-xMxO ceramic samples with various x and M (0.00 ≤ x ≤ 0.20, M = Ni, Cu). It is found that the considered dopants do not influence the well-known peaks related to the wurtzite structure of ZnO ceramics, while the shapes and the sizes of grains are clearly affected. The average crystalline diameters deduced from the SEM micrographs are between 2.06 μ and 4.8 μ for all samples. The oxygen element ratio is increased by both dopants. Interestingly, the potential barrier can be formed by adding Cu up to 0.20, while it is completely deformed by 0.025 Ni addition. The breakdown field can be enhanced up to 4138 V/cm by 0.025 Cu addition, followed by a decrease with further increase of Cu up to 0.20. On the other hand, a gradual decrease in Vickers microhardness is reported for both dopants, and the values in the Ni samples are higher compared to those in the Cu samples. The electrical conductivity is generally improved by Ni, while the addition of Cu improves it only in the over doped region ( ≥ 0.10). These results are discussed in terms of the differences of valency and ferromagnetic ordering.
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Growth mechanism and photoluminescence of the SnO2 nanotwists on thin film and the SnO2 short nanowires on nanorods

Wang Bing, Xu Ping
2009, 18(1): 324-332. Full Text: PDF (13753KB) (5917)
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SnO2 nanotwists on thin film and SnO2 short nanowires on nanorods have been grown on single silicon substrates by using Au--Ag alloying catalyst assisted carbothermal evaporation of SnO2 and active carbon powders. The morphology and the structure of the prepared nanostructures are determined on the basis of field-emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM), selected area electronic diffraction (SAED), high-resolution transmission electron microscopy (HRTEM), x-ray diffraction (XRD), Raman and photoluminescence (PL) spectra analysis. The new peaks at 356, 450, and 489 nm in the measured PL spectra of two kinds of SnO2 nanostructures are observed, implying that more luminescence centres exist in these SnO2 nanostructures due to nanocrystals and defects. The growth mechanism of these nanostructures belongs to the vapour--liquid--solid (VLS) mechanism.
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Solitons for a generalized variable-coefficient nonlinear Schrödinger equation

Wang Huan, Li Biao
2011, 20(4): 040203. Full Text: PDF (2324KB) (4370)
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In this paper, we investigate some exact soliton solutions for a generalized variable-coefficients nonlinear Schrödinger equation (NLS) with an arbitrary time-dependent linear potential which describes the dynamics of soliton solutions in quasi-one-dimensional Bose-Einstein condensations. Under some reasonable assumptions, one-soliton and two-soliton solutions are constructed analytically by the Hirota method. From our results, some previous one- and two-soliton solutions for some NLS-type equations can be recovered by some appropriate selection of the various parameters. Some figures are given to demonstrate some properties of the one- and the two-soliton and the discussion about the integrability property and the Hirota method is given finally.
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Some corrections to the Thomas–Fermi theory

Janusz Chrzanowski
2013, 22(8): 087101. Full Text: PDF (11289KB) (4082)
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In the presented model the wave function describing the electron is a superposition of contributions from individual components of the system, in the case of metals–lattice ions and in this sense refers not to a single electron, but rather to the system as a whole. An unconventional approach to the Schrödinger equation can provide a simple analytical relationship between the total energy of the electron and the wave number. This expression can directly determine the basic parameters such as Fermi radius, the screening radius or work function and also produce a graphical interpretation of the Fermi surface.

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Transfer function modeling and analysis of the open-loop Buck converter using the fractional calculus

Wang Fa-Qiang, Ma Xi-Kui
2013, 22(3): 030506. Full Text: PDF (457KB) (4001)
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Based on the fact that the real inductor and the real capacitor are fractional order in nature and the fractional calculus, the transfer function modeling and analysis of the open-loop Buck converter in continuous conduction mode (CCM) operation are carried out in this paper. The fractional order small signal model and the corresponding equivalent circuit of the open-loop Buck converter in CCM operation are presented. The transfer functions from the input voltage to the output voltage, from the input voltage to the inductor current, from the duty cycle to the output voltage, from the duty cycle to the inductor current, and the output impedance of the open-loop Buck converter in CCM operation are derived, and their bode diagrams and step responses are calculated, respectively. It is found that all the derived fractional order transfer functions of the system are influenced by the fractional orders of the inductor and the capacitor. Finally, the realization of the fractional order inductor and the fractional order capacitor is designed, and the corresponding PSIM circuit simulation results of the open-loop Buck converter in CCM operation are given to confirm the correctness of the derivations and the theoretical analysis.
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Stability of operation versus temperature of a three-phase clock-driven chaotic circuit

Zhou Ji-Chao, Hyunsik Son, Namtae Kim, Han Jung Song
2013, 22(12): 120506. Full Text: PDF (3082KB) (3271)
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We evaluate the influence of temperature on the behavior of a three-phase clock-driven metal–oxide–semiconductor (MOS) chaotic circuit. The chaotic circuit consists of two nonlinear functions, a level shifter, and three sample and hold blocks. It is necessary to analyze a CMOS-based chaotic circuit with respect to variation in temperature for stability because the circuit is sensitive to the behavior of the circuit design parameters. The temperature dependence of the proposed chaotic circuit is investigated via the simulation program with integrated circuit emphasis (SPICE) using 0.6-μm CMOS process technology with a 5-V power supply and a 20-kHz clock frequency. The simulation results demonstrate the effects of temperature on the chaotic dynamics of the proposed chaotic circuit. The time series, frequency spectra, bifurcation phenomena, and Lyapunov exponent results are provided.
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Surface rumples and band gap reductions of cubic BaZrO3 (001) surface studied by means of first-principles calculations

Zhang Chao, Wang Chun-Lei, Li Ji-Chao, Yang Kun, Zhang Yan-Fei, Wu Qing-Zao
2008, 17(1): 274-280. Full Text: PDF (697KB) (3131)
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Electronic properties of the (001) surface of cubic BaZrO$_{3}$ with BaO and ZrO$_{2}$ terminations have been studied using first-principles calculations. Surface structure, partial density of states, band structure and surface energy have been obtained. We find that the largest relaxation appears in the first layer of atoms, and the relaxation of the BaO-terminated surface is larger than that of the ZrO$_{2}$-terminated surface. The surface rumpling of the BaO-terminated surface is also larger than that of the ZrO$_{2}$-terminated surface. Results of surface energy calculations reveal that the BaZrO$_{3}$ surface is likely to be more stable than the PbZrO$_{3}$ surface.
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New scheme of anticipating synchronization for arbitrary anticipation time and its application to long-term prediction of chaotic states

Sun Zhong-Kui, Xu Wei, Yang Xiao-Li
2007, 16(11): 3226-3230. Full Text: PDF (351KB) (3087)
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