2015年, 第63卷, 第03期　
刊出日期：2015-03-01

  

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  Coherent States for the Two-Dimensional Dirac—Moshinsky Oscillator Coupled to an External Magnetic Field

  D. Ojeda-Guillén, R. D. Mota, V. D. Granados

  理论物理通讯. 2015, 63(03): 271-274.

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  We show that the (2+1)-dimensional Dirac—Moshinsky oscillator coupled to an external magnetic field can be treated algebraically with the SU(1,1) group theory and its group basis. We use the su(1,1) irreducible representation theory to find the energy spectrum and the eigenfunctions. Also, with the su(1,1) group basis we construct the relativistic coherent states in a closed form for this problem.
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  Variational Principle for a Schrödinger Equation with Non-Hermitian Hamiltonian and Position—Dependent Mass

  A. R. Plastino, C. Vignat, A. Plastino

  理论物理通讯. 2015, 63(03): 275-278.

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  A classical field theory for a Schrödinger equation with a non-Hermitian Hamiltonian describing a particle with position-dependent mass has been recently advanced by Nobre and Rego—Monteiro (NR) [Phys. Rev. A 88 (2013) 032105]. This field theory is based on a variational principle involving the wavefunction Ψ(x,t) and an auxiliary field Φ(x,t). It is here shown that the relation between the dynamics of the auxiliary field Φ(x,t) and that of the original wavefunction Ψ(x,t) is deeper than suggested by the NR approach. Indeed, we formulate a variational principle for the aforementioned Schrödinger equation which is based solely on the wavefunction Ψ(x,t). A continuity equation for an appropriately defined probability density, and the concomitant preservation of the norm, follows from this variational principle via Noether's theorem. Moreover, the norm-conservation law obtained by NR is reinterpreted as the preservation of the inner product between pairs of solutions of the variable mass Schrödinger equation.
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  Probing Berezinskii—Kosterlitz—Thouless Phase Transition of Spin-Half XXZ Chain by Quantum Fisher Information

  郑强, 姚尧, 徐勋卫

  理论物理通讯. 2015, 63(03): 279-284.

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  The Berezinskii—Kosterlitz—Thouless phase transition of spin-1/2 XXZ chain is reinvestigated by the quantum Fisher information. Quantum Fisher informations of the whole N sites and the partial N/3 sites display remarkably similar behaviors near the critical point. The critical exponent of quantum Fisher information is obtained as β=0.47, which is consistent with the results obtained by the concurrence and quantum discord.
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  Controlled Deterministic Secure Quantum Communication Protocol Based on Three-Particle GHZ States in X-Basis

  昌燕, 张仕斌, 闫丽丽, 韩桂华

  理论物理通讯. 2015, 63(03): 285-290.

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  A controlled deterministic secure quantum communication (CDSQC) protocol is proposed based on three-particle GHZ state in X-basis. Only X-basis and Z₁Z₂X₃-basis (composed of Z-basis and X-basis) measurement are required, which makes the scheme more convenient than others in practical applications. By distributing a random key between both sides of the communication and performing classical XOR operation, we realize a one-time-pad scheme, therefore our protocol achieves unconditional secure. Because only user with legitimate identity string can decrypt the secret, our protocol can resist man-in-the middle attack. The three-particle GHZ state in X-basis is used as decoy photons to detect eavesdropping. The detection rate reaches 75% per qubit.
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  Effect of Different Environments on Multipartite Global Discord

  徐宝明, 邹健, 李军刚, 邵彬

  理论物理通讯. 2015, 63(03): 291-295.

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  We investigate the influences of non-Markovian dissipation and global dephasing process on the dynamical behaviors of global discord among four qubits. We find that for the non-Markovian dissipation model W state is the most robust to decoherence compared to Dicke and GHZ states; however, for the global dephasing model Dicke state is the most robust to decoherence among them. Also the dynamical behaviors of global quantum discord are quite different from that of the multipartite entanglement for the non-Markovian dissipation model, while they are very similar to each other for the global dephasing model.
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  Implementation of Positive Operator-Valued Measure in Passive Faraday Mirror Attack

  王卫龙, 高明, 马智

  理论物理通讯. 2015, 63(03): 296-302.

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  Passive Faraday-mirror (PFM) attack is based on imperfect Faraday mirrors in practical quantum cryptography systems and a set of three-dimensional Positive Operator-Valued Measure (POVM) operators plays an important role in this attack. In this paper, we propose a simple scheme to implement the POVM in PFM attack on an Faraday—Michelson quantum cryptography system. Since the POVM can not be implemented directly with previous methods, in this scheme it needs to expand the states sent by Alice and the POVM operators in the attack into four-dimensional Hilbert space first, without changing the attacking effect by calculation. Based on the methods proposed by Ahnert and Payne, the linear-optical setup for implementing the POVM operators is derived. At last, the complete setup for realizing the PFM attack is presented with all parameters. Furthermore, our scheme can also be applied to realize PFM attack on a plug-and-play system by changing the parameters in the setup.
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  Effect of Anisotropic Spin-Orbit Coupling on the Ground State of Bose—Einstein Condensate in an External Potential

  和万全, 高日丽, 张培, 毕雄伟, 潘青山, 许世娟

  理论物理通讯. 2015, 63(03): 303-307.

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  Spin-orbit coupled Bosonic atoms confined in external potentials open up new avenues for quantum-state manipulation and will contribute to the design and exploration of novel quantum devices. Here we consider a quasi-two-dimensional spin-orbit coupled Bose—Einstein condensate confined in an external harmonic potential, with emphasis on the effects of anisotropic spin-orbit coupling on the equilibrium ground-state structure of such a system. For the cases with spin-orbit coupling solely in x- or y-axis direction, the ground-state structure can develop to the well-known standing wave phase, in which the two components always form an alternative density arrangement. For a two-dimensional anisotropic spin-orbit coupling, the separated lumps first become bend, then form two rows of stripe structure along y direction with further increasing the strength of spin-orbit coupling in x-direction. Furthermore, the distance between these two rows of stripe structure is also investigated in detail.
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  Hard-Core Bosons on a Two-Dimensional Square Optical Superlattice

  李晓娟, 文渝川

  理论物理通讯. 2015, 63(03): 308-316.

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  In this work, we theoretically study hard-core bosons on a two-dimensional square optical superlattice at T=0. First of all, we present the mean field phase diagram of this model in terms of the chemical potential μ and the alternating potential strength △. Besides a superfluid (SF) phase at △=0 and a charge density wave (CDW) phase in the large △ at half filling, we demonstrate that a supersolid (SS) phase emerges in the moderate △. Then, we focus on the μ=0, e.g., half filling case, using large-S semi-classical spin-wave approximation to study the SS to CDW quantum phase transition. In particular, we calculate the ground-state energy and the superfluid density at the level of 1/S correction. We then compare the spin-wave results with the large scale quantum Monte Carlo (QMC) simulations using the cluster stochastic series expansion (CSSE) algorithm, and find that while the spin wave method is intuitive with clear physical pictures, the quantum critical point is quite different from that of numerical results which is believed to be accurate. We suggest that as simple as it is, this model still exhibits strong quantum fluctuations near the quantum critical point beyond the power of semiclassical spin-wave approach.
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  A Unified Lorenz-Like System and Its Tracking Control

  李春来, 赵益波

  理论物理通讯. 2015, 63(03): 317-324.

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  This paper introduces the finding of a unified Lorenz-like system. By gradually tuning the only parameter d, the reported system belongs to Lorenz-type system in the sense defined by ?likovský. Meanwhile, this system belongs to Lorenz-type system, Lü-type system, Chen-type system with d less than, equivalent to and greater than 1.5, respectively, according to the classification defined by Yang. However, this system can only generate a succession of Lorenz-like attractors. Some basic dynamical properties of the system are investigated theoretically and numerically. Moreover, the tracking control of the system with exponential convergence rate is studied. Theoretical analysis and computer simulation show that the proposed scheme can allow us to drive the output variable x₁ to arbitrary reference signals exponentially, and the guaranteed exponential convergence rate can be estimated accurately.
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  Analysis of the Z(4430) as the First Radial Excitation of the Z_c(3900)

  王志刚

  理论物理通讯. 2015, 63(03): 325-330.

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  In this article, we take the Z_c(3900) and Z(4430) as the ground state and the first radial excited state of the axial-vector tetraquark states with J^PC=1^+-, respectively, and study their masses and pole residues with the QCD sum rules by calculating the contributions of the vacuum condensates up to dimension-10 in a consistent way in the operator product expansion. The numerical result favors assigning the Z_c(3900) and Z(4430) as the ground state and first radial excited state of the axial-vector tetraquark states, respectively.
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  Pair Production of the Doubly Charged Leptons Associated with a Gauge Boson γ or Z in e⁺e^- and γγ Collisions at Future Linear Colliders

  曾庆国, 吉莉, 杨硕

  理论物理通讯. 2015, 63(03): 331-339.

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  In this paper, we investigate the production of a pair of doubly charged leptons associated with a gauge boson V(γ or Z) at future linear colliders via e⁺e^- and γγ collisions. The numerical results show that the possible signals of the doubly charged leptons may be detected via the processes e⁺e^-→ VX⁺⁺X^-- and γγ→ VX⁺⁺X^-- at future ILC or CLIC experiments.
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  Superposition of Stationary Wave Fields Via Atom Microscopy

  Hizbullah, Anwar Ali khan, Naveed Khan, Iftikhar Ahmad, Bakht Amin Bacha

  理论物理通讯. 2015, 63(03): 340-346.

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  We investigate one-dimensional position microscopy of a three-level atom moving through a stationary wave region under the condition of electromagnetically induced transparency. The precise position information of an atom is observed on the resonance absorption and dispersion distribution spectrum of a weak probe field. Single and multiple localization peaks are observed in specific directions of the corresponding wave numbers and phase of the standing wave fields. The strength of space-independent Rabi frequency reduces the position uncertainty in the localized peaks without disturbing the probability of the atom. In a hot atomic medium the localized probability of an atom is reduced which depends upon the temperature of that medium. Our results provide useful applications in the development of laser cooling, atom nanolithography and Bose—Einstein condensation.
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  Physiological Transportation of Casson Fluid in a Plumb Duct

  Noreen Sher Akbar, Adil Wahid Butt

  理论物理通讯. 2015, 63(03): 347-352.

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  This paper is devoted to a study of the peristaltic motion of a Casson fluid of a non-Newtonian fluid accompanied in a horizontal tube. To characterize the non-Newtonian fluid behavior, we have considered the Casson fluid model. Suitable similarity transformations are utilized to transform the governing partial differential momentum into the non-linear ordinary differential equations. Exact analytical solutions of these equations are obtained and are the properties of velocity, pressure and profiles are then studied graphically.
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  The Blood Flow of Prandtl Fluid Through a Tapered Stenosed Arteries in Permeable Walls with Magnetic Field

  R. Ellahi, S.U. Rahman, S. Nadeem, K. Vafai

  理论物理通讯. 2015, 63(03): 353-358.

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  This Communication deals with the blood flow of Prandtl fluid through a tapered stenosed arteries having permeable walls. The governing equations of two-dimensional Prandtl fluid model are modelled in cylindrical coordinates. The highly nonlinear equations are simplified with the help of non-dimensional variables under the assumption of mild stenosis. The solution of reduced nonlinear equation subject to boundary condition of porous walls having the effects of Darcy's number and slip parameter are computed analytically with the help of perturbation method. Effects of emerging parameters such as impedance λ, slip parameter α, stenosis height δ, magnetic parameter and stress component S_rz on velocity are illustrated graphically. The streamlines have also been presented to discuss the trapping bolus discipline.
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  The Prediction of Wave Competitions in Inhomogeneous Brusselator Systems

  崔晓华, 董云霞, 黄晓清, 李宁

  理论物理通讯. 2015, 63(03): 359-366.

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  The competition of waves has remained a hot topic in physics over the past few decades, especially the area of pattern control. Because of improved understanding of various dynamic behaviors, many practical applications have sprung up recently. The prediction of wave competitions is also very important and quite useful in these fields. This paper considers the behaviors of wave competitions in simple, inhomogeneous media which is modeled by Brusselator equations. We present a simple rule to judge the results of wave competitions utilizing the dispersion relation curves and the waves coming from different wave sources. Moreover, this rule can also be used to predict the results of wave propagation. It provides methods of obtaining the desired waves with given frequencies in inhomogeneous media. All our results are concluded and verified by computer simulations.
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  Shock Structures in Charge Variable Dusty Plasmas with Effect of Strongly Coupled Dust Particles

  Mehran Shahmansouri, Bizhan Farokhi, Hossein Ashouri

  理论物理通讯. 2015, 63(03): 367-378.

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  A theoretical investigation has been carried out to study the effect of strong electrostatic interaction on the dust acoustic shock structures in strongly coupled dusty plasma with dust charge fluctuations. The fluid approach is employed, in which the strong electrostatic interaction is modeled by effective electrostatic temperature. A Burger-like equation, the coefficients of which are significantly modified by effects of strong coupling and dust charge fluctuation, is derived. It is shown that the combined effects of dust charge fluctuation, the ion/electron temperature, the ion/electron population, and strong coupling effect modify the basic properties of the dust acoustic waves in such a strongly coupled dusty plasma. The results of this work are compared with those observed by some laboratory experiments.
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  Mechanism behind Unique Properties of Local Heating in Nanoscale Junctions

  周利玲, 黎勇军, 余里生

  理论物理通讯. 2015, 63(03): 379-384.

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  We investigate the unique properties of current-induced heat generation in nanojunctions, such as failed Q ∝ I relation (where Q is the heat generation and I the current), threshold voltage required to generate heat, etc. By employing the lead-quantum dot (QD)-lead system, we find these unique properties stem from (i) the discontinuity of Fermi distribution at chemical potentials of the leads and (ii) the satellite peaks in spectral function of the QD electron, which are induced by the electron-phonon interaction.
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  Spin-Filtering Transport in Double Parallel Quantum Wires on a Graphene Sheet

  羊富彬, 程艳, 柳福提, 陈向荣, 蔡灵仓

  理论物理通讯. 2015, 63(03): 385-390.

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  We theoretically investigate the spin filtering transport of double parallel quantum wires (QWs) side-coupled to a graphene sheet and sandwiched between two ferromagnetic (FM) leads. The dependences of the wire-graphene coupling strength, wire-wire coupling strength, as well as the spin polarization of the ferromagnetic leads are studied. It is found that the wire-graphene coupling strength tends to reduce the current and the wire-wire coupling strength can first reinforce and then decrease the current. The spin polarization strength has an enhanced (identical) effect on the current under the parallel (anti-parallel) alignment of the FM leads, which gives rise to an obvious spin-filter and tunnel magnetoresistance (TMR) effect. Our results suggest that such a theoretical model can stimulate some experimental investigations about the spin-filter devices.
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  Quintessence Field as a Perfect Cosmic Fluid of Constant Pressure

  刘文中, 欧阳君, 杨焕雄

  理论物理通讯. 2015, 63(03): 391-400.

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  We study the cosmology of a quintessence scalar field which is equivalent to a non-barotropic perfect fluid of constant pressure. The coincidence problem is alleviated by such a quintessence equation-of-state that interpolates between plateau of zero at large redshifts and plateau of minus one as the redshift approaches to zero. The quintessence field is neither a unified dark matter nor a mixture of cosmological constant and cold dark matter, relying on the facts that the quintessence density contrasts of sub-horizon modes would undergo a period of late-time decline and the squared sound speeds of quintessence perturbations do not vanish. What a role does the quintessence play is dynamic dark energy, its clustering could remarkably reduce the growth rate of the density perturbations of non-relativistic matters.