理论物理研究所

黄国翔研究小组

研究论文

按年份排列:
2015  / 2014 / 2013  / 2012 / 2011 / 2010 / 2009 / 2008 / 2007 / 2006 / 2005 / 2004 / 2003 / 2002 / 2001 / 2000 / 1999 /1998 / 1997 / 1996 / 1995 / 1994 / 1993 / 1992 / 1991 / 1990/  1989及以前


2015

  1.     Zhiming  Chen, Zhengyang Bai, Hui-jun Li, Chao Hang,and Guoxiang Huang, Storage and  retrieval of (3+1)-dimensional weak-light bullets and vortices in a coherent  atomic gas, Sci. Rep. 5, 8211 (2015). [pdf]

  2. Chao Hang,  Yaroslav V. Kartashov, Guoxiang Huang, and Vladimir V. Konotop, Localization of  Light in a PT-Symmetric Quasiperiodic Lattice, Opt. Lett. xx, xxxx  (2015). [pdf]

  3. Chao Hang and  Guoxiang Huang, Weak-light solitons and their active control in a  parity-time-symmetric atomic system, Phys. Rev. A 91, 043833 (2015). [pdf]

  4. Yang Chen, Zhiming Chen, and Guoxiang Huang, Storage and  retrieval of vector optical solitons via double electromagnetically induced  transparency, Phys. Rev. A 91, 023820 (2015). [pdf]

  5.     Chaohua  Tan and Guoxiang Huang, Surface polaritons in a negative-index metamaterial  with active Raman gain, Phys. Rev. A 91, 023803 (2015). [pdf]

  6. Qi Zhang,  Chaohua Tan, Chao Hang, and Guoxiang Huang, Low-loss Airy Surface Plasmon  Polaritons, CHINESE OPTICS LETTERS xx, xxxxxx (2015). [pdf]


2014

  1.     C. J. Zhu,  Y. Ren, X. Zhao, G. X. Huang, L. Deng, and E. W. Hagley, Highly efficient,  broadband coherent surface-mixing-wave generation using amplified surface  plasmonic polaritons, Appl. Phys. Lett. 104, 203108 (2014). [pdf]

  2. Chao Hang,  Dmitry A. Zezyulin, Guoxiang Huang, Vladimir V. Konotop, and Boris A. Malomed,  Tunable nonlinear double-core PT-symmetric waveguides, Opt. Lett. 39,  5387 (2014). [pdf]

  3. Yuli V. Bludov, Chao Hang, Guoxiang Huang, and Vladimir  V. Konotop, PT -symmetric coupler with a coupling defect: soliton interaction  with exceptional point, Opt. Lett. 39, 3382 (2014). [pdf]

  4.      Chao  Hang, Zhengyang Bai, and Guoxiang Huang, Storage and retrieval of Airy light  wave packets in a coherent atomic system, Phys. Rev. A 90, 023822  (2014). [pdf]

  5.     Chaohua  Tan and Guoxiang Huang, Superluminal surface polaritonic solitons at weak light  level via coherent population oscillation, Phys. Rev. A 89, 033860  (2014). [pdf]

  6.     Hui-jun  Li, Jian-Peng Dou, Guoxiang Huang, Realization of two-dimensional Aubry-Andr′e  localization of light waves via electromagnetically induced transparency, Phys.  Rev. A 89, 033843 (2014). [pdf]

  7.      Zhiming  Chen and Guoxiang Huang, Trapping of weak signal pulses by soliton and  trajectory control in a coherent atomic gas, Phys. Rev. A 89, 033817  (2014). [pdf]

  8. Yang Chen,  Zhengyang Bai, and Guoxiang Huang, Ultraslow optical solitons and their storage  and retrieval in an ultracold ladder-type atomic system, Phys. Rev. A  89, 023835 (2014). [pdf]

  9. Chao Hang and Guoxiang Huang,  Guiding ultraslow weak-light bullets with Airy beams in a coherent atomic  system, Phys. Rev. A 89, 013821 (2014). [pdf]

  10. Chengjie Zhu, L Deng, E W  Hagley, and Guoxiang Huang, Optical self-focusing effect in coherent light  scattering with condensates, Laser Phys. 24 065402 (2014). [pdf]

  11. Chaohua Tan and Guoxiang  Huang, Crossover from electromagnetically induced transparency to Autler–Townes  splitting in open ladder systems with Doppler broadening, J. Opt. Soc. Am. B  31, 704 (2014). [pdf]

  12. Qiong Du, Chao Hang, and  Guoxiang Huang, Phase-controlled optical switching and slow- and weak-light  solitons in a coherent molecular system with permanent dipole moments, J. Opt.  Soc. Am. B 31, 594 (2014). [pdf]


2013

  1.     Chao Hang,  Guoxiang Huang, and Vladimir V. Konotop, PT Symmetry with a System of  Three-Level Atoms, Phys. Rev. Lett. 110, 083604 (2013).  [pdf]

  2. Chao Hang,  Guoxiang Huang, and Vladimir V. Konotop, Tunable nonlinear  parity–time-symmetric defect modes with an atomic cell, Opt. Lett. 38,  4033 (2013).  [pdf]

  3. Chao Hang and  Guoxiang Huang, Slow-light Airy wave packets and their active control via  electromagnetically induced transparency, Phys. Rev. A 88, 013825  (2013).  [pdf]

  4.  Chao Hang and  Guoxiang Huang, Ultraslow helical optical bullets and their acceleration in  magneto-optically controlled coherent atomic media, Phys. Rev. A 87,  053809 (2013).  [pdf]

  5. Chengjie Zhu,  Chaohua Tan, and Guoxiang Huang, Crossover from Electromagnetically Induced  Transparency to Autler-Townes Splitting in Open V-Type Molecular Systems, Phys.  Rev. A 87, 043813 (2013).  [pdf]

  6. Huijun Li,  Jian-peng Dou, and Guoxiang Huang, PT symmetry via electromagnetically induced  transparency, Opt. Express  21, 32053 (2013). [pdf]

  7. Zhengyang Bai,  Chao Hang, and Guoxiang Huang, Subluminal and superluminal terahertz radiation  in metamaterials with electromagnetically induced transparency,  Opt. Express 21, 17736  (2013). [pdf]

  8. Jin Xu and Guoxiang Huang, ''Electromagnetically induced  transparency and ultraslow optical solitons in a coherent atomic gas filled in a  slot waveguide, Opt. Express 21, 5149 (2013). [pdf]

  9. Zhiming Chen  and Guoxiang Huang, Stern–Gerlach effect of multi-component ultraslow optical  solitons via electromagnetically induced transparency, J. Opt. Soc. Am. B 30, 2248 (2013).  [pdf]

  10.      Liang Li,  Chengjie Zhu, L. Deng, and Guoxiang Huang, Electromagnetically induced  transparency and nonlinear pulse propagation in an atomic medium confined in a  waveguide, J. Opt. Soc. Am. B  30, 197 (2013). [pdf]

  11.     Chaohua  Tan, Chengjie Zhu, and Guoxiang Huang, Analytical approach on linear and  nonlinear pulse propagations in an open-type molecular system with Doppler  broadening, J. Phys. B: At. Mol. Opt. Phys. 46,  025103 (2013). [pdf]

  12. Chenxu  Li, Xiaodong Ma,  Yongli Ma, and Guoxiang Huang, Resonant Interactions of Collective Modes in a  Quasi-One-Dimensional Attractive Bose–Einstein Condensate, Journal of the Physical Society of Japan  82, 044002 (2013).  [pdf]

  13.     Zhengyang  Bai, Chao Hang, and Guoxiang Huang, Classical analogs of double  electromagnetically induced transparency, Opt. Comm. 291, 253 (2013). [pdf]

  14.     Qiong Du,  Chao Hang, and Guoxiang Huang, Crossover from spontaneously generated coherence  to Autler-Townes splitting in three-level atomic systems, Int. J. Mod. Phys.  27, 1350065 (2013). [pdf]

  15. Zhengyang Bai,  Chao Hang, and Guoxiang Huang, Storage and retrieval of ultraslow optical  solitons in coherent atomic system, CHINESE OPTICS LETTERS 11, 012701 (2013).  [pdf]


2012

  1.     Chao Hang,  and Guoxiang Huang, Stern-Gerlach effect of weak-light ultraslow vector  solitons, Phys. Rev. A 86, 043809 (2012).  [pdf]

  2. Hui-jun Li,  Yuan-po Wu, Chao Hang, and Guoxiang Huang, (3+1)-dimensional superluminal  spatiotemporal optical solitons and vortices at weak light level, Phys. Rev. A  86, 043829 (2012).  [pdf]

  3. H. Sun, S. L. Fan, X. L. Feng, C. F. Wu, S. Q. Gong, G.  X. Huang, and C. H. Oh, ''Strongly interacting photons in asymmetric quantum  well via resonant tunneling, Opt. Express 20, 8485 (2012). [pdf]

  4.     Chao Hang,  and Guoxiang Huang, Ultraslow optical solitons in atomic media with  spontaneously generated coherence, J. Opt. Soc. Am. B 29, 2009 (2012). [pdf]

  5.     Sujuan  Liu, Wen Wen, and Guoxiang Huang, Evolution of interference patterns of  superfluid Fermi gases released from a two-dimensional optical lattice, Int. J.  Mod. Phys. 26, 1250017 (2012).  [pdf]

  6. 杨金金,李慧军, 文文,黄国翔,  n 型主动拉曼增益原子介质中的光学双稳, 物理学报61224204(2012[pdf]


2011

  1.     Hui-jun  Li, Liangwei Dong, Chao Hang, and Guoxiang Huang, Gain-assisted  high-dimensional self-trapped laser beams at very low light levels, Phys. Rev.  A 83, 023816 (2011).  [pdf]

  2.     Jing Cheng  and Guoxiang Huang, Controlling the delocalization-localization transition of  light via electromagnetically induced transparency, Phys. Rev. A 83,  053847 (2011).   [pdf]

  3.      Hui-jun Li, Yuan-po Wu, Guoxiang Huang, Stable weak light  ultraslow spatio-temporal solitons via atomic coherence,  Physical Review A  84, 033816 (2011). [pdf]

  4. Chengjie Zhu  and Guoxiang Huang, Giant Kerr Nonlinearity, Controlled Entangled Photons and  Polarization Phase Gates in Coupled Quantum-Well Structures, Opt. Express  19, 23364 (2011).  [pdf]

  5.     Chengjie  Zhu and Guoxiang Huang, High-order nonlinear Schrodinger equation and  weak-light superluminal solitons in active Raman gain media with two control  fields, Opt. Express 19, 1963 (2011).  [pdf]

  6.     黄国翔,杭超,朱成杰,  主动拉曼增益介质中快光传播的非线性理论, 光学学报3109001332011(受邀综述论文[pdf]


2010

  1. Liang Li and Guoxiang Huang,  Linear and nonlinear light propagations in a Doppler-broadened medium via  electromagnetically induced transparency, Phys. Rev .A 82, 023809  (2010).[pdf]

  2. Chao Hang and Guoxiang Huang, Highly entangled photons  and rapidly responding polarization qubit phase gates in a room-temperature  active Raman gain medium, Phys. Rev. A 82, 053818 (2010).  [pdf]

  3. Wen Wen,  Shun-Qing Shen, and Guoxiang Huang, “Propagation of sound and supersonic bright  solitons in superfluid Fermi gases in BCS-BEC crossover,  Phys. Rev. B  81, 014528 (2010).  [pdf]

  4.     Chao Hang  and Guoxiang Huang, ''Giant Kerr nonlinearity and weak-light superluminal  optical solitons in a four-state atomic system with gain doublet, Opt. Express  18, 2952 (2010). [pdf]

  5.     Chengjie  Zhu, C. Hang, and G. X. Huang, ''Gain-assisted giant Kerr nonlinearity in a  Λ-type system with two-folded lower levels, Eur. Phys. J. D 56, 231  (2010).  [pdf]

  6.     Liang Li  and G. Huang,  Slow-light solitons in three-level atomic systems modified by a  microwave field, Eur. Phys. J. D 58, 339 (2010). [pdf]


2009

  1.     Wen Wen  and Guoxiang Huang, “Dynamics of dark solitons in superfluid Fermi gases in the  BCS-BEC crossover,  Phys. Rev. A 79, 023605 (2009).  [pdf]

  2.     Siqin  Cao, Yong-li Ma, and Guoxiang Huang, ''Collective modes of trapped superfluid  Fermi gases in the BCS-BEC crossover beyond the mean-field approximation, Phys.  Rev. A 79, 013620 (2009). [pdf]

  3.     Chao  Hang, V. V. Konotop, and Guoxiang Huang, ''Spatial solitons and instabilities of  light beams in a three-level atomic medium with a standing-wave control field,  Phys. Rev. A 79, 033826 (2009). [pdf]

  4.     Chengjie  Zhu and Guoxiang Huang, ''Slow-light solitons in coupled asymmetric quantum  wells via interband transitions, Phys. Rev. B 80, 235408  (2009).[pdf]

  5.     Chao Hang  and Guoxiang Huang, Weak-light superluminal vector solitons in a  room-temperature four-level active-Raman-gain medium, J. Opt. Soc. Am. B  26, 413 (2009). [pdf]

  6.     Hui-jun  Li, Chao Hang, and Guoxiang Huang, Depletion of control field during the  propagation of ultraslow optical solitons, J. Opt. Soc. Am. B 26, 2028  (2009). [pdf]

  7.     H. J. Li,  L. Deng, and G. Huang,  Dynamics of coupled ultraslow optical solitons in a  coherent four-state double-Λ system, Eur. Phys. J. D 55, 99 (2009).  [pdf]

  8.     Chao Hang  and Guoxiang Huang, Phase-controlled gain, phase shift and group velocity using  a room-temperature active-Raman-gain medium, Chin. Opt. Lett. 7, 549-552  ( 2009).  [pdf]


2008

  1.     Guoxiang  Huang, Chao Hang, and L. Deng, “Gain-sssisted superluminal optical solitons at  very low light intensity,  Phys. Rev. A 77, 011803 (2008) (Rapid  Communication).  [pdf]

  2.     Hui-jun  Li, Chao Hang, Guoxiang Huang, and L. Deng, ''High-order nonlinear Schrödinger  equation and superluminal optical solitons in room-temperature active-Raman-gain  media, Phys. Rev. A 78, 023822 (2008). [pdf]

  3.     Wen Wen,  Yu Zhou, and Guoxiang Huang, ''Interference patterns of superfluid Fermi gases  in the BCS-BEC crossover released from optical lattices, Phys. Rev. A 77,  033623(2008). [pdf]

  4.     Chao Hang  and Guoxiang Huang, Weak-light ultraslow vector solitons via  electromagnetically induced transparency, Phys. Rev. A 77, 033830 (2008).  [pdf]

  5.     Yu Zhou,  Wen Wen, and Guoxiang Huang, Frequency shift and mode coupling of the  collective modes of superfluid Fermi gases in the BCS-BEC crossover, Phys. Rev.  B 77, 104527 (2008). [pdf]

  6.     Guoxiang  Huang and Nicolas Compagnon, Complete and orthonormal eigenfunctions of  excitations to a one-dimensional dark soliton, Phys. Lett. A 372, 321-326  (2008).[pdf]

  7.     Chao Hang  and Guoxiang Huang, Ultraslow optical solitons in a four-level tripod atomic  system, Phys. Lett. A 372, 3129-2135 (2008). [pdf]

  8.     Hui-jun  Li and Guoxiang Huang, Two-component spatial optical solitons in a four-state  ladder system via electromagnetically induced transparency, Phys. Lett. A 372,  4127-4134 (2008). [pdf]

  9.     Chao  Hang, Bin Luo, and Guoxiang Huang, Comment on 'Superluminal solitons in a  L-type atomic system with two-folded levels' , J. Opt. Soc. Am. B 25, 951  (2008). [pdf]

  10.    Yun Li,  Chao Hang, Lei Ma, Weiping Zhang, and Guoxiang Huang, Quantum random walks in a  coherent atomic system via electromagnetically induced transparency, J. Opt.  Soc. Am. B 25, C39-C45 (2008). [pdf]


2007

  1.     Yong-li  Ma and Guoxiang Huang, “Bogoliubov Excitations of Trapped Superfluid Fermi Gases  in a BCS-BEC Crossover Beyond Thomas-Fermi Limit”, Phys. Rev. A  75, 063629  (2007).  [pdf]

  2.     Xiaodong  Ma, Yong-li Ma, and Guoxiang Huang, “Analytical Calculations on Landau Damping  of Collective Modes in Anisotropic Bose-Einstein Condensates”, Phys. Rev. A  75, 013628  (2007).  [pdf]

  3.     Yu Zhou  and Guoxiang Huang, “Collective Modes of Low-Dimensional Superfluid Fermi Gases  in BCS-BEC Crossover: A Time-Dependent Variational Analysis”, Phys. Rev. A  75, 023611  (2007). [pdf]

  4.     Hui-jun  Li and Guoxiang Huang, Highly efficient four-wave mixing in a coherent  six-level system in ultraslow propagation regime, Phys. Rev. A 76, 043809  (2007). [pdf]

  5.     Hui-jun  Li, Chao Hang, and Guoxiang Huang, “Transient Optical Properties of Coherent  Four-Level Atoms without Undepleted Ground-State Approximation”, Phys. Lett. A  368, 336-340  (2007). [pdf]

  6.     Jing  Wang, Chao Hang, and Guoxiang Huang, “Weak-light gap solitons in a resonant  three-level system”, Phys. Lett. A 366, 528-533   (2007).  [pdf]

  7.     Wen Wen,  and Guoxiang Huang, “Collective modes of quasi-one-and quasi-twodimensional  superfluid Fermi gases in a BCS-BEC crossover”, Phys. Lett. A 362, 331-336  (2007).  [pdf]

  8.     Jacob  Szeftel and Guoxiang Huang, “Study of An Acoustoelectric Instability in  Piezoelectric Semiconductors”, Int. J. Mod. Phys. B 21, 4201-4211 (2007). [pdf]

  9.     Xiaodong  Ma, Yong-li Ma, and Guoxiang Huang, “Landau Damping of Collective Modes in a  Disk-Shaped Bose-Einstein Condensate”, Chin. Phys. Lett. 24, 616  (2007).  [pdf]

  10.     Chao  Hang and Guoxiang Huang, “Faraday Rotation in a Resonant Five-Level System via  Electromagnetically Induced Transparency”, Chin. Opt. Lett. 5, 47-50  (2007).  [pdf]


2006

  1.     Guoxiang  Huang, Kaijun Jiang, M. G. Payne, and L. Deng, “Formation and propagation of  coupled ultra slow optical soliton pairs in a cold three-state double-Λ system”,  Phys. Rev. E 73, 056606  (2006). [pdf]

  2.     Chao  Hang, Guoxiang Huang, and L. Deng, “Stable high-dimensional spatial weak-light  solitons in a resonant three-state atomic system”, Phys. Rev. E  73, 046601  (2006). [pdf]

  3.     Chao  Hang, Yun Li, Lei Ma, and Guoxiang Huang, “Three-way entanglement and  three-qubit phase gate based on a coherent six-level atomic system”, Phys. Rev.  A 74, 012319  (2006). [pdf]

  4.     Jun Yin,  Yong-li Ma, and Guoxiang Huang, “Analytical expressions of collective  excitations for trapped superfluid Fermi gases in a BCS-BEC crossover”, Phys.  Rev. A 74, 013609  (2006). [pdf]

  5.     Chao  Hang, Guoxiang Huang, and L. Deng, “Generalized nonlinear Schr¨odinger equation  and ultra slow optical solitons in a cold four-state atomic system”, Phys. Rev.  E 73, 036607  (2006). [pdf]

  6.     Jacob  Szeftel, Patrick Leroux-Hugon, and Guoxiang Huang, “Solitary acoustoelectric  microwave domain in piezoelectric semiconductors”, Europhys. Lett.  73(5), 752-758  (2006). [pdf]

  7.     Guoxiang  Huang, Chao Hang, and L. Deng, “Propagation of shape-preserving optical pulses  in inhomogeneously broadened multi-level systems”, Euro. Phys. J. D  40, 437-444  (2006).  [pdf]

  8.     Guoxiang  Huang, L. Deng, Jiaren Yan, and Bambi Hu, “Quantum depletion in a soliton  condensate”, Phys. Lett.  A  357 (2), 150-153  (2006). [pdf]

  9.     Guoxiang  Huang and Chao Hang, “Solitons in a (N+1) Level Medium”, Phys. Lett. A  354, 406-409  (2006). [pdf]

  10.     Yousheng  Xu, Yang Liu, X. Z. Xu, and Guoxiang Huang, “Lattice Boltzmann Simulation on  Molten Carbonate Fuel Cell Performance”, J. Electrochem. Soc. 153, A607-A613  (2006). [pdf]

  11.     Yun Li,  Chao Hang, Lei Ma, and Guoxiang Huang, “Controllable Entanglement of Lights in a  Five-Level System”, Phys. Lett.  A  354 , 1-7  (2006). [pdf]

  12.     Guoxiang  Huang and Jacob Szeftel, “Coupled Optical Solitons for Pulse Propagation in  Multi-Level Media”, Chin. Phys. Lett. 23, 834   (2006).  [pdf]

  13.     Yu Zhou,  Xiaodong Ma, and Guoxiang Huang, “Collective modes of a quasi-twodimensional  superfluid Fermi gas in BCS-BEC crossover”, Chin. Phys. Lett. 23, 2662  (2006).  [pdf]

  14.     Xiaodong  Ma, Yu Zhou, Yong-li Ma, and Guoxiang Huang, “Landau Damping of Collective Modes  in a Harmonically Trapped Bose-Einstein Condensate”, Chin. Phys.  15, 1871-1878  (2006).  [pdf]

  15.     Chao  Hang and Guoxiang Huang, “High-Dimensional Nonlinear Envelope Equations and  Nonlinear Localized Excitations in Photonic Crystals”, Commun. Theor. Phys.  46, 149-154   (2006).  [pdf]

2005

  1.     Guoxiang Huang, L. Deng, and Chao Hang, “Davey-Stewartson description  of two-dimensional nonlinear excitations in Bose-Einstein condensates”, Phys.  Rev. E 72, 036621  (2005).  [pdf]

  2.     L. Deng, M. G. Payne, Guoxiang Huang, and E. W. Hagley, “Formation  and propagation of matched and coupled ultraslow optical soliton pairs in a  four-level double-Λ system”, Phys. Rev. E 72, 055601  (2005)(Rapid communication).  [pdf]

  3.     Guoxiang Huang, L. Deng and M. G. Payne, “Dynamics of ultraslow  optical solitons in a cold three-state atomic system”, Phys. Rev. E  72, 016617  (2005).  [pdf]

  4.     Yong-li Ma, Guoxiang Huang, and Bambi Hu, “Three-mode resonant  coupling of collective excitations in a Bose-Einstein condensate”, Phys. Rev. A  71, 043609  (2005).  [pdf]

  5.     Guoxiang Huang, “Nonlinear amplitude equations and solitons in  Bose-Einstein condensates”, in Nonlinear Waves in Fluids: Recent Advances and  Modern Applications, CISM Courses and Lecture Notes No. 483, ISBN3-211-25259-2,  edited by R. Grimshaw (Springer, 2005), pp 169-196.

  6.     Yousheng Xu, Yang Liu, and Guoxiang Huang, “Lattice Boltzmann  simulation of momentum and energy transfer in a porous medium”, Mod. Phys. Lett.  B, 19(28-29),  1531-1534 (2005).  [pdf]

  7.     Chunliu Sun, Yousheng Xu, Weina Cui, Guoxiang Huang, Jacob Szeftel,  and Bambi Hu, “Three-wave soliton excitations in a disk-shaped Bose-Einstein  condensate”, Int. J. Mod. Phys. B 19(23),  3563-3574 (2005).  [pdf]

  8.     Weina Cui and Guoxiang Huang, “Second-harmonic generation in optical  fibers induced by a cross-phase modulation effect”, Chin. Phys. Lett.  22, 3083-3086  (2005). [pdf]

  9.     B. Wu, Yousheng Xu, Yang Liu, and Guoxiang Huang, “Numerical  simulation for separation of multi-phase immiscible fluids in porous media”,  Chin. Phys. 14(10),  2046-2051 (2005). [pdf]


2004

  1.     Weina  Cui, Guoxiang Huang, and Bambi Hu, “Second-harmonic generation in optical fibers  on a continuous-wave background”, Phys. Rev. E 70, 057602  (2004). [pdf]

  2.     Guoxiang  Huang, Xin-qi Li, and Jacob Szeftel, “Second harmonic generation of Bogoliubov  excitations in two-component Bose-Einstein condensates”, Phys. Rev. A  69, 065601  (2004). [pdf]

  3.     Bambi  Hu, Guoxiang Huang, and Yong-li Ma, “Analytical solutions of the Bogoliubovde  Gennes equations for the excitations of a trapped Bose-condensed gas”, Phys.  Rev. A 69, 063608  (2004). [pdf]

  4.     Chunliu  Sun, Chao Hang, Guoxiang Huang, and Bambi Hu, “Investigation of Four-Wave Mixing  of Matter Waves in Bose-Einstein Condensates”, Mod. Phys. Lett. B  18 (9), 375-383  (2004). [pdf]

  5.     Weina  Cui and Guoxiang Huang, “Three-wave resonant interaction in optical fibers on a  continuous background”, Chin. Phys. Lett. 21, 2437-2440  (2004). [pdf]

  6.     Yousheng  Xu, Yang Liu, and Guoxiang Huang, “Using digital Imaging to characterizing  threshold dynamic parameters in porous media based on lattice Boltzmann method”,  Chin. Phys. Lett. 21, 2454-2457  (2004). [pdf]

  7.     Yousheng  Xu, Yijun Zhong, and Guoxiang Huang, “Lattice Boltzmann method for  diffusion-reaction-transport processes in heterogeneous porous media”, Chin.  Phys. Lett. 21, 1298-1301  (2004). [pdf]

  8.     Guoxiang  Huang, “Second Harmonic Generation of Propagating Collective Excitations in  Bose-Einstein Condensates”, Chin. Phys., 13, 1866-1876  (2004). [pdf]

  9.     Yousheng  Xu, Huabin Li, Haiping Fang, and Guoxiang Huang, “Lattice-Boltzmann simulation  for nonlinear flow in porous media with coupling reaction”, Acta Physica Sinica  53, 773-777  (2004)(in Chinese). [pdf]

  10.     Chunliu  Sun and Guoxiang Huang, “Three-wave resonant interaction of Bogoliubov  excitations in a Bose-Einstein condensate with diffraction”, Commun. Theor.  Phys. 41, 699-706  (2004). [pdf]

  11.     Yousheng  Xu, Huamei Li, Shangping Guo, and Guoxiang Huang, “A new numerical solution of  fluid flow in stratigraphic porous media”, Commun. Theor. Phys.  41, 949-952  (2004). [pdf]


2003

  1.     Guoxiang  Huang, V. A. Makarov, and M. G. Velarde, “Two-dimensional solitons in  Bose-Einstein condensates with a disk-shaped trap”, Phys. Rev. A  67, 023604  (2003). [pdf]

  2.     Hongwei  Xiong, Shujuan Liu, and Guoxiang Huang, “Anomalous fluctuations of  two-dimensional Bose-Einstein condensates”, Phys. Rev. A 67, 055601  (2003). [pdf]

  3.     Shujuan  Liu, Hongwei Xiong, Guoxiang Huang, and Zhijun Xu, “Anomalous particle-number  fluctuations in a three-dimensional interacting Bose-Einstein condensate”, Phys.  Rev. A 68, 065601  (2003). [pdf]

  4.     Hongwei  Xiong, Shujuan Liu, and Guoxiang Huang, “Pauli paramagnitism of an ideal Fermi  gas within canonical ensemble”, Phys. Lett. A 318, 281-286  (2003). [pdf]

  5.     Hongwei  Xiong, Shujuan Liu, Guoxiang Huang, and Lei Wang, “Phase diffusion of  Bose-Einstein condensates in a one-dimensional optical lattice”, J. Phys. B:  Atom. Mol. Opt. 36, 3315  (2003). [pdf]

  6.     Hongwei  Xiong, Shujuan Liu, and Guoxiang Huang, “Microcanonical ensemble for  Bose-condensed gas in optical lattices”, J. Phys. B: Atom. Mol. Opt. 36, L121-L125  (2003). [pdf]

  7.     Shujuan  Liu, Hongwei Xiong, Zhijun Xu and Guoxiang Huang, “Interference pattern of  Bose-condensed gas in a 2D optical lattice,” J. Phys. B: Atom. Mol. Opt. Phys.  36, 2083-2092  (2003). [pdf]

  8.      Jacob Szeftel,  Guoxiang Huang, and Vladmir Konotop, “On the existence of moving breathers in  one-dimensional anharmonic lattices”, Physica D  181  , 215-221 (2003). [pdf]

  9.     Guoxiang  Huang, “(2+1)-dimensional envelope solitons in a disk-shaped Bose-Einstein  condensate”, Chin. Phys. Lett. 20, 802-805  (2003). [pdf]

  10.     Guoxiang  Huang, Bambi Hu, and Jacob Szeftel, “Three-wave parametric simultons in  nonlinear lattices”, Int. J. Mod. Phys. B 17, 4215-4221  (2003). [pdf]

  11.     Weina  Cui, Chunliu Sun, and Guoxiang Huang, “Dromion excitations in self-defocusing  optical media”, Chin. Phys. Lett. 20, 246-249  (2003). [pdf]

  12.     Weina  Cui, Guoxiang Huang, and Chunliu Sun, “Three-wave resonant interactions in  self-defocusing optical media”, Chin. Phys. Lett. 20, 1279  (2003). [pdf]


2002

  1.     Hongwei Xiong, Shujuan Liu, Guoxiang Huang, and Zaixin Xu, “Canonical statistics  of trapped ideal and interacting Bose gases”, Phys. Rev. A 65, 033609  (2002). [pdf]

  2.     Guoxiang Huang, Jacob Szeftel, and Shanhua Zhu, “Dynamics of dark solitons in  quasi-one-dimensional Bose-Einstein condensates”, Phys. Rev. A  65, 053605  (2002). [pdf]

  3.     Xin-Qi Li, Li-Xiang Cen, Guoxiang Huang, and YiJin Yang, “Nonadiabatic geometric  quantum computation with trapped ions”, Phys. Rev. A 66, 042320  (2002). [pdf]

  4.     Guoxiang Huang and Manuel G. Velarde, “Hydrodynamic simultons in a  liquid layer”, J. Fluid Mech. 466, 1-15  (2002). [pdf]

  5.     Hongwei Xiong, Shujuan Liu, and Guoxiang Huang, “Statistical properties of  interacting Bose gases in quasi-two-dimensional traps”, J. Phys. B: Atom. Mol.  Opt. Phys., 35, 2105-2116  (2002). [pdf]

  6.     Hongwei Xiong, Shujuan Liu, Guoxiang Huang, and Zhijun Xu, “Evolution of a  coherent array of Bose-Einstein condensates in a magnetic trap”, J. Phys. B:  Atom. Mol. Opt. Phys. 35, 4863-4873  (2002). [pdf]

  7.     Jacob Szeftel and Guoxiang Huang, “Anharmonic excitations in the FPU  and FK models”, European Physical Journal B 27, 329-334  (2002). [pdf]

  8.     Hongwei Xiong, Shujuan Liu, and Guoxiang Huang, “Phase diffusion of  Bose-Einstein condensation close to zero temperature”, Phys. Lett. A  301, 203  (2002). [pdf]

  9.     Guoxiang Huang and Shanhua Zhu, “Dark lump excitations in  Bose-Einstein condensates”, Chin. Phys. Lett. 19, 17 (2002).  [pdf]

  10.     Shanhua Zhu, Guoxiang Huang, and Weina Cui, “Vectorial coupled-mode  solitons in one-dimensional photonic crystals”, Chin. Phys. 11, 919  (2002). [pdf]

  11.     Shanhua Zhu, Weina Cui, and Guoxiang Huang, “Coupled gap solitons in  one-dimensional photonic crystals”, Acta Physica Sinica 51, 789  (2002)(in  Chinese).  [pdf]


2001

  1.     Guoxiang  Huang, M. G. Velarde, and V. A. Makarov, “Dark solitons and their head-on  collisions in Bose-Einstein condensates”, Phys. Rev. A 64, 013617  (2001). [pdf][erratum]

  2.     Guoxiang  Huang, V. V. Konotop, Hon-Wah Tam, and Bambi Hu, “Nonlinear modulation of  multi-dimensional lattice waves”, Phys. Rev. E 64, 056619  (2001). [pdf]

  3.     Guoxiang  Huang and M. G. Velarde, “On second harmonic generation and the onset of  simultaneous capillary-gravity solitary waves (simultons or quadratic  solitons)”, C. R. Acad. Sci. (Paris) 329 II  b, 13-18  (2001). [pdf]

  4.     Hongwei  Xiong, Shujuan Liu, Guoxiang Huang, Zhijun Xu, and Cunyuan Zhang, “Critical  temperature and condensate fraction of the traped interacting Bose gas with  finite-size effects”, J. Phys. B: Atom. Mol. Opt. Phys. 34, 3013-3024  (2001). [pdf]

  5.     Hongwei  Xiong, Shujuan Liu, Guoxiang Huang, Zhijun Xu, Cunyang Zhang, “Fluctuations of  the condenstae in ideal and interacting Bose gases”, J. Phys. B: Atom. Mol. Opt.  Phys. 34(21),  4203-4215 (2001). [pdf]

  6.     Guoxiang  Huang, “KdV description of solitons in Bose-Einstein condensation”, Chin. Phys.  Lett. 18(5), 628-630  (2001). [pdf]

  7.     Shanhua  Zhu and Guoxiang Huang, “Coupled solitons in alternating Heisenberg  ferromagnetic chains with a small magnon band gap”, Chin. Phys. Lett.  18, 1316  (2001). [pdf]

  8.     Guoxiang  Huang, “Temporal optical solitons via multistep cascading”, Chin. Phys.,  10(5), 418-423  (2001). [pdf]

  9.     Guoxiang  Huang, “Parametric simultons in one-dimensional nonlinear lattices”, Chin.  Phys., 10(6), 523-530  (2001). [pdf]

  10.     Shanhua  Zhu and Guoxiang Huang, “Coupled band gap solitons in alternating Heisenberg  ferromagnetic Chians”, Commun. Theor. Phys. 36, 477  (2001).

  11.     Shujuan  Liu and Guoxiang Huang, “ Condensation temperature of Bose-Einstein condensation  with repulsive interaction”, J. East China Normal Univ. (Natural), No. 2, 46-49  (2001)(in Chinese). [pdf]


2000

  1.     Bambi  Hu, Guoxiang Huang, and M. G. Velarde, “Dynamics of coupled gap solitons in  diatomic lattices with cubic and quartic nonlinearities”, Phys. Rev. E  62,  2827-2839(2000). [pdf]

  2.     Guoxiang  Huang, “Exact solitary wave solutions of three-wave interaction equations with  dispersion”, J. Phys. A 33,  8477-8482(2000). [pdf]

  3.     Shujuan  Liu, Guoxiang Huang, Lei Ma, Shanhua Zhu, and Hongwei Xiong, “Thermodynamic  properties of the trapped interacting Bose gas with finite size”, J. Phys. B:  Atom. Mol. Opt. Phys. 33,  3911-3918(2000). [pdf]

  4.     Guoxiang  Huang and Bambi Hu, “Optical solitons with Gaussian tails”, Commun. Theor. Phys.  33,  481-486(2000).

  5. Guoxiang  Huang and M. G. Velarde, “Dispersion-modified burgers description for nonlinear  surface wave excitations in Benard-Marangoni convection”, Commun. Theor. Phys.  34,  321-326(2000).


1999

  1.     Guoxiang  Huang, Peiqing Tong, and Bambi Hu, “Coupling of cutoff modes in nonlinear  lattices”, J. Phys.: Condens. Matter 11,  2759-2771(1999). [pdf]


1998

  1.     Guoxiang  Huang and Bambi Hu, “Asymmetric gap solitons in diatomic lattices with cubic and  quartic nonlinearity”, Phys. Rev. B 57,  5746-5757(1998). [pdf]

  2.     Guoxiang  Huang, Shudong Zhang, and Bambi Hu, “Nonlinear excitations in ferromagnetic  chains with nearest-and next-nearest-neighbor exchange interactions”, Phys. Rev.  B 58,  9194-9206(1998). [pdf]

  3.     Guoxiang  Huang, M. G. Velarde, and V. N. Kurdyumov, “Cylindrical solitary waves and their  interaction in B´enard-Marangoni layers”, Phys. Rev. E 57,  5473-5482(1998). [pdf]


1997

  1.     Guoxiang  Huang, M. G. Velarde, and Shanhua Zhu, “Gap solitons and resonant kinks in  Heisenberg ferromagnetic chains with bond alternation”, Phys. Rev. B  55,  336-346(1997). [pdf]

  2.     Shanhua  Zhu, Guoxiang Huang, and Zaixin Xu, “Nonlinear excitations in alternating  Heisenberg ferromagnets”, Acta Physica Sinica 46,  447-452(1997).

  3.     Guoxiang  Huang, and M. G. Velarde, “Oblique interactions of two spatial dark optical  solitons in defocusing media”, J. Opt. Soc. Am. B 14,  2850-2855(1997). [pdf]

  4.     Ji Lin,  Yong Li, Guoxiang Huang, and Sen-yue Lou, “Macro-experimental study from steady  soliton to chaotic lattice soliton”, Chinese Sci. Bull. 42,  120-123(1997). [link]


1996

  1.     Guoxiang  Huang, and M. G. Velarde, “Head-on collision of two concentric ion acoustic  solitary waves”, Phys. Rev. E 53,  2988-2991(1996). [pdf]

  2.     Guoxiang  Huang, Senyue Lou, and M. G. Velarde, “Gap solitons, resonant kinks, and  intrinsic localized modes in parametrically excited diatomic lattices”, Int. J.  Bif. Chaos 6,  1775-1787(1996).

  3.     Guoxiang  Huang, and M. G. Velarde, “Head-on collision of dark solitons near the  zero-dispersion point in optical fibers”, Phys. Rev. E 54,  3048-3051(1996). [pdf]

  4.     Senyue  Lou, Ji Lin, Jun Yu, Guoxiang Huang, and Jiakong Zhang, “Observation of  periodic, quasiperiodic and chaotic localized excitations in nonlinear diatomic  macro-lattices”, Mod. Phys. Lett. B 10,  11-22(1996).

  5.     Guoxiang  Huang, “Gap solitons and resonant kinks in ferromagnetic Heisenberg chains”,  Commun. Theor. Phys. 25,  415-420(1996).


1995

  1.     Guoxiang  Huang, and Zhiqiang Jia, “Self-induced gap solitons in Heisenberg ferromagnetic  chains”, Phys. Rev. B 51,  613-616(1995). [pdf]

  2.     Guoxiang  Huang, “Soliton excitations in one-dimensional diatomic lattices”, Phys. Rev. B  51,  12347-12360(1995). [pdf]

  3.     Senyue  Lou, Guoxiang Huang, “Experimental study of the solitons in nonlinear diatomic  macro-lattices”, Mod. Phys. Lett. B 9,  1231-1241(1995).

  4.     Guoxiang  Huang, “Soliton excitations in a diatomic lattice with nonlinear on-site  potentials”, Acta Physica Sinica (overseas edition) 4,  489-495(1995). [pdf]

  5.     Senyue  Lou, Ji Lin, Jun Yu, and Guoxiang Huang, “Macro-experimental observation of the  staggered mode in lattice systems”, Chin. Phys. Lett. 12,  400-402(1995). [pdf]


1994

  1.        Guoxiang Huang, “Gap solitons in damped and parametrically driven nonlinear  diatomic lattices”, Phys. Rev. E 49,  5893-5896(1994). [pdf]

  2.        Guoxiang Huang, “Solitary waves in Marangoni-B´enard convecting fluid”, Acta  Physica Sinica (overseas edition) 3,  900-908(1994). [pdf]


1993

  1.        Guoxiang Huang, Senyue Lou, and Zaixin Xu, “Head-on collision between solitary  waves in Rayleigh-B´enard convecting fluid”, Phys. Rev. E 47,  3830-3833(1993)(Rapid Communication).  [pdf]

  2.        Guoxiang Huang, Zhu-Pei Shi, and Zaixin Xu, “Asymmetric intrinsic localized  modes in a homogeneous lattice with cubic and quartic anharmonicity”, Phys. Rev.  B 47,  14561-14564(1993). [pdf]

  3.        Guoxiang Huang, Jun Shen, and Hongjun Quan, “Noncutoff kinks in damped and  parametrically driven nonlinear lattices” Phys. Rev. B 48,  16795-16798(1993). [pdf]

  4.        Guoxiang Huang, Zaixin Xu, and Wenliu Xu, “Magnetic gap solitons as the  intrinsic self-localized magnons in Heisenberg antiferromagnetic chains”, J.  Phys. Soc. Jpn. 62, 3231-3238(1993).


1992

  1.        Guoxiang Huang, Hongfang Li, and Xianxi Dai, “Soliton and soliton-pair as the  intrinsic phonon localized modes in an anharmonic monoatomic chain”, Chin. Phys.  Lett. 9,  151-154(1992). [pdf]

  2.        Guoxiang Huang, and Zaixin Xu, “Kinks and solitons in coupled pendulum  lattices”, Chin. Phys. Lett. 9,  659-662(1992). [pdf]


1991

  1.        Guoxiang Huang, Zhu-Pei Shi, Xianxi Dai, and Ruibao Tao, “Soliton excitations in  the alternating ferromagnetic Heisenberg chain”, Phys. Rev. B  43,  11197-11260(1991). [pdf]

  2.        Zhu-Pei Shi, Guoxiang Huang, and Ruibao Tao, “Envelope kink excitations in a  quantum anisotropic antiferromagnetic chain”, Phys. Rev. B 43,  8583-8586(1991). [pdf]

  3.        Guoxiang Huang, “Exact solitary wave solutions of the Sakuma-Nishiguchi  equation”, Phys. Rev. B 44,  3377-3379(1991). [pdf]

  4.        Zhu-Pei Shi and Guoxiang Huang, “Envelope kink phonon localized modes in a  homogeneous anharmonic chain”, Phys. Rev. B 44,  12601-12604(1991)(Rapid Communication).  [pdf]

  5.        Guoxiang Huang, Senyue Lou, and Xianxi Dai, “Some exact and explicit solutions  for the Korteweg-de Vries-Burgers equation and the modified Korteweg-de  Vries-Burgers equation”, Sing. J. Phys. 8, 1-6(1991).  

  6.        Zhu-Pei Shi, Guoxiang Huang, Guoxiang, Ruibao Tao, “Solitary waves in a spin  chain under super-long wave approximation”, Mod. Phys. Lett. B  5,  1509-1513(1991).

  7.       Senyue  Lou, Guoxiang Huang, and Hangru Ruan, “Exact solitary waves in a convecting  fluid”, J. Phys. A: Math. & Gen. 24,  L587-L590(1991).

  8.        Zhu-Pei Shi, Guoxiang Huang, Ruibao Tao, “Solitonlike phonon localized modes in  diatomic nonlinear lattice chains”, Int. J. Mod. Phys. B 5,  2237-2244(1991).

  9.        Guoxiang Huang, Zhu-Pei Shi, Xianxi Dai, and Ruibao Tao, “Soliton excitations in  the compressible Heisenberg spin chain: A general approach” Commun. Theor. Phys.  17,  7-20(1991).

  10.       Senyue  Lou, Guoxiang Huang, and Guangjiong Ni, “The solitonlike solutions of  φ^6 and  φ^4 +  φ^3 models with  and without dissipation”, Commun. Theor. Phys. 15,  67-73(1991).

  11.        Guoxiang Huang, Zhu-Pei Shi, Xianxi Dai, and Ruibao Tao, “Two-soliton bound  states in a Heisenberg chain”, Commun. Theor. Phys. 16,  93-98(1991).

  12.       Senyue  Lou, and Guoxiang Huang, “Jacobi elliptic function solutions for the generalized  fifth order KdV equation”, J. Ningbo Normal College (Nature) 9,  27-32(1991).


1990

  1.        Guoxiang Huang, Zhu-Pei Shi, Xianxi Dai, and Ruibao Tao, “Solitonlike phonon  localization and two-phonon bound states of multivibrational excitations”, Phys.  Rev. B 41,  12292-12294(1990)(Rapid Communication).  [pdf]

  2.        Guoxiang Huang, Zhu-Pei Shi, Xianxi Dai, Ruibao Tao, “On soliton excitations in  the one-dimensional Heisenberg ferromagnet”, J. Phys.: Condens. Matter  2,  8355-8364(1990). [pdf]

  3.        Zhu-Pei Shi, Guoxiang Huang, Xianxi Dai, and Ruibao Tao, “Solitonlike  excitations in spin chain with biquadratic aniotropic exchange interaction”,  Phys. Rev. B 42,  747-753(1990). [pdf]

  4.        Guoxiang Huang, Zhu-Pei Shi, Xianxi Dai, and Ruibao Tao, “Solitonlike magnon  localization and two-magnon bound states in a Heisenberg ferromagnetic chain”,  J. Phys.: Condens. Matter 2,  10059-10067(1990). [pdf]

  5.       Senyue  Lou, Guoxiang Huang, and Guangjiong Ni, “Transforming some special solutions of  φ^4 model to that of φ^6 and φ^4 + φ^3 model”, Phys. Lett. A 146,  45-50(1990).

  6.        Guoxiang Huang, Jiaren Yan, and Xianxi Dai, “Investigations on nonpropagating  gravity-surface tension solitons in rectangular resonator”, Acta Physica Sinica  39,  1234-1241(1990). [pdf]

  7.       Senyue  Lou, Guoxiang Huang, and Guangjiong Ni, “Some new multi-soliton solutions of  higher-dimensional nonlinear wave equations”, Acta Physica Sinica  39,  1363-1372(1990). [pdf]

  8.        Guoxiang Huang, Senyue Lou, and Xianxi Dai, “Cylindrical envelope solitary  waves”, Chin. Phys. Lett. 7,  398-401(1990). [pdf]

  9.       Guoxiang Huang, Xianxi Dai, and Senyue Lou, “Generalization to cylindrical  coordinate system for the higher-order KdV equation and the higher-order KP  equation”, Chin. Phys. Lett. 7,  64-67(1990). [pdf]

  10.        Guoxiang Huang, Xianxi Dai, and Senyue Lou, “A higher-order (2+1)-dimensional  Korteweg-de Vries equation and its exact solitary wave solutions”, Commun.  Theor. Phys. 14,  221-224(1990).

  11.       Senyue  Lou, Guoxiang Huang, and Guangjiong Ni, “A model with spontaneous symmetry  breaking and its kink soliton solutions”, Commun. Theor. Phys.  13,  7983(1990).

  12.        Guoxiang Huang, Senyue Lou, and Xianxi Dai, “Model equations and their solitary  wave solutions in cylindrical coordinate system”, Commun. Theor. Phys.  13,  103107(1990).


1989

  1.        Guoxiang Huang, Senyue Lou, and Xianxi Dai, “Exact and explicit solitary wave  solutions to a model equation for water wave”, Phys. Lett. A 139,  373-374(1989).

  2.        Guoxiang Huang, Senyue Lou, Xianxi Dai and Jiaren Yan, “A model equation and its  exact two-dimensional solitary wave solutions for water wave dynamics”, Chin.  Phys. Lett. 6,  393-396(1989). [pdf]

  3.        Guoxiang Huang and Jiaren Yan, “Envelope solitons of stress wave on the wall of  a fluid-filled circular tube”, Chin. J. Acoustics 14,  467-474(1989). [pdf]

  4.        Guoxiang Huang, Jiaren Yan, and Hong Li, “Larraza-Putterman equation including  viscosity and external drive”, Chin. J. Acoustics 14,  357-363(1989). [pdf]


1988

  1.       Jiaren  Yan and Guoxiang Huang, “Nonpropagating solitary waves on surface of fluid with  small viscosity excited by external drive”, Chin. Phys. Lett.  5,  305-308(1988). [pdf]

  2.        Guoxiang Huang and Jiaren Yan, “Stress solitary waves in tubes with axial  symmetries”, J. Xiangtan Univ. 10,  24-30(1988) (in Chinese). [pdf]

  3.       Jiaren  Yan, Guoxiang Huang and Nianning Huang, “Nonpropagating solitary waves on the  interface between two layers of fluids in rectangular waveguides”, Acta Physica  Sinica 37,  (1988)874-880. [pdf]

  4.       Jiaren  Yan and Guoxiang Huang, “Envelope Solitary Waves in Nonlinear Transmission  Lines”, Appl. Math. 1,  67-73(1988) (in Chinese). [pdf]

  5.        Guoxiang Huang, Jiaren Yan, and Fengwu Zou, “The second harmonic resonance for  shallow water surface waves in a rectangular trough”, Appl. Math. Mech.  9,  945-950(1988). [pdf]


1987

  1.        Guoxiang Huang, “Theory of nonpropagating solitons including surface-tension  effect”, Appl. Math. Mech. 8,  985-989(1987). [pdf]

  2.        Guoxiang Huang, “On the relation between characteristic functions and partition  functions”, J. Xiangtan Univ. 9,  62-70(1987) (in Chinese). [pdf]


1986

  1.        Guoxiang Huang, “On symmetry”, J. Xiangtan Univ. 8,  16-21(1986) (in Chinese).


1985


  1.       Guoxiang Huang, “Calculations of electric potential distribution and mutual  energy by introducing multi-moment experessions of electrical charge density”,  J. Xiangtan Univ. 7,  77-83(1985) (in Chinese).