个人资料
教育经历1988.9-1991.8:获复旦大学理学博士学位 1984.9-1987.7:获湘潭大学理学硕士学位(在职) 1978.3-1982.1:获湘潭大学理学学士学位 工作经历1.国内 2014.10-今: 纽约大学-华东师范大学联合物理研究所中方所长 2011.1-2016.2:华东师范大学物理系系主任 2010.5-2016.6:华东师范大学精密光谱科学与技术国家重点实验室副主任 2005.1-至今:华东师范大学终身教授 2001.5-2004.4:华东师范大学物理系副系主任 1998.10-今:华东师范大学物理系博士生导师 1994.8 -今:华东师范大学物理系教授 1992.10-1994.7:华东师范大学物理系副教授 1991.9-1992.9:华东师范大学物理系讲师 1988.9-1991.8: 复旦大学物理系学习, 获博士学位 1984.9-1987.8: 湘潭大学物理系学习, 获硕士学位(在职) 1982.2-1988.8:湘潭大学物理系助教、讲师 1978.3-1982.1: 湘潭大学物理系学习、获学士学位 1977.1-1978.2:湖南省南县游港乡电影放映员
2.国外与境外 2018.5:丹麦奥胡斯大学访问学者 2017.9:意大利都灵大学访问学者 2016.7-2016.8:美国纽约大学物理系访问学者 2014.4-2014.5:美国纽约大学物理系访问学者 2008.1-2008.2: 西班牙马德里大学交叉学科研究所访问教授 2005.6-2005.7: 法国巴黎第七大学凝聚态理论研究室访问教授 2004.10-2005.3: 美国国家标准与技术研究院 (NIST) 客座研究员 2003.6-2003.9: 香港浸会大学非线性研究中心访问学者 2001.9-2002.1: 法国巴黎第七大学凝聚态理论研究室访问教授 2001.7-2001.8: 意大利国际理论物理中心 (ICTP) 访问学者 2000.12-2001.2:香港浸会大学非线性研究中心访问学者 1994.10-1998.9:西班牙马德里大学交叉学科研究所客座教授、德国马克斯-普朗克复杂系统研究所客座研究员、香港浸会大学客座研究员 个人简介华东师范大学终身教授、二级教授。1991年获复旦大学理学博士学位。先后在西班牙马德里大学和德国 Max-Planck 研究所任博士后与客座科学家。多次访问美国国家标准与技术研究院、法国巴黎大学、意大利国际理论物理中心、美国纽约大学等学术机构。多年来一直从事非线性物理与非线性光学方面的研究,在流体与固体中的非线性激发、冷原子与玻色-爱因斯坦凝聚、原子与分子体系中的非线性与量子干涉效应等方面做出了一系列研究成果。先后承担国家自然科学基金重大项目课题、国家自然科学基金重点项目、国家自然科学基金面上项目、国家973项目课题、教育部跨世纪人才基金、教育部骨干青年教师基金等项目20余项。已在国内外主要物理学学术刊物上发表研究论文200余篇(其中 Physical Review 系列100余篇)。所发表的论文被SCI他引4000余次,h-指数36。1993、1995年获上海市高校优秀青年教师称号‚ 1996年选拔为华东师大首批跨世纪学术带头人‚ 1997年获国家教委科技进步二等奖‚1999年入选教育部跨世纪优秀人才‚ 2000年获国务院特殊津贴。 社会兼职现任: 2015 至今:纽约大学-华东师范大学联合物理研究所所长 2016 至今: 上海市非线性科学学会理事长 2018 至今:上海市科学与技术协会第十届委员会委员 曾任: 2012.1-2016.2:华东师范大学物理系系主任 2011.4-2016.6:华东师大精密光谱科学与技术国家重点实验室副主任 2001.5-2004.4:华东师范大学物理系副系主任 2001-2005: 教育部物理学与天文学教学指导委员会委员 1998-2004: 全国高校热力学与统计物理学教学研究会委员、学术组组长 2008-2016: “Chinese Optics Letters” (中国光学学会主办)常务编委 2005-2015:“物理教学” (中国物理学会主办) 编委 2015-2018:“Scientific Reports” (英国 Nature 出版集团主办)编委 2003-2006: 上海市普陀区政协委员 2000-2015: 九三学社华东师范大学副主任委员 2007-2015: 九三学社上海市文教委员会委员
研究方向非线性与量子光学 研究组目前研究方向:
黄国翔:华东师范大学终身教授、二级教授。纽约大学-华东师大联合物理研究所中方所长,上海市非线性科学学会理事长。1991年获复旦大学理学博士学位。 课题组教师
在读研究生
招生与培养开授课程担任本科生“普通物理实验”,“普通物理学”、“数学物理方法”、“电动力学”、“量子力学”和“热力学与统计物理学”等基础课的教学,及研究生“非线性物理基础”(用英语讲授)“渐近方法”等的教学工作;指导硕士、博士研究生近30名且均已获得相应学位,研究生毕业后多人已晋升为教授、副教授或成为教学科研骨干。 《电动力学》课程 主讲:黄国翔, 杭超 课程编号:(统一编号) 课程名称:电动力学 (Electrodynamics) 学时:72 学分:4 课程性质:学科基础课(必修) 适用专业:物理学类 适用对象:本科 先修课程:高等数学,电磁学,数学物理方法 一、课程教学目标 本课程是物理系本科生的专业基础课.通过本课程的学习,使学生掌握经典电动力学的基本概念,原理及处理问题的基本方法,并为以后学习相关专业课程及研究相关物理问题提供必要的理论基础。要求学生熟练掌握麦克斯韦方程组及其边值关系;掌握静电场、静磁场的求解方法;掌握迅变场的势及其满足的达朗伯方程,以及电偶极辐射;掌握电磁波在导电介质中的基本方程,及其在介质和导体表面的反射和折射。了解狭义相对论建立的历史背景,掌握狭义相对论的基本原理及时空理论,掌握电动力学的四维协变形式以及相对论力学的内容; 了解与掌握带电粒子与电磁场相互作用的基本现象与理论处理方法; 对电磁场理论的现代应用有一定的了解。 二、教学内容及基本要求 1. 引言 电动力学发展简史 矢量分析 2. 电磁现象的普遍规律 电荷、电流和电磁场 Maxwell 方程组 介质的电磁性质 电磁场的边值关系 电磁场的能量和能流 3. 静电场 静电场及其微分方程 唯一性定理 拉普拉斯方程、分离变量法 镜象法 格林函数法 电多极矩 4. 静磁场 矢势及其微分方程 磁标势 静磁场方程的求解方法 磁多极矩 Ahanorov-Bohm 效应 超导体的电磁性质 5. 电磁波的传播 电磁场的波动方程、平面电磁波 电磁波在界面上的反射和折射 有导体存在时电磁波的传播 波导与谐振腔 高斯光束 6. 电磁波的辐射 电磁场的矢势和标势、规范变换和规范不变性 推迟势 电偶极辐射 电磁波的衍射 电磁场的动量密度和动量流密度 7. 狭义相对论 狭义相对论的实验基础 相对论的基本原理 洛伦兹变换 相对论的时空 电动力学的相对论不变性 相对论力学 8. 带电粒子与电磁场相互作用 运动带电粒子的势和辐射电磁场 电磁波的散射与吸收,介质的色散
三、教学安排及方法 “电动力学”课程的课内学时为72学时。教学安排如下表:
其中讲课 72 学时 ,复习 2 小时,考试 (期中,期末) 各 2 小时。 四、考核方法:进行考核包括以下几个方面:作业及听课等情况(30%)、期中考试(30%)、 期末考试(40%)。 五、推荐教材与参考资料 教材:《电动力学》,郭硕鸿编著,高等教育出版社,第三版, 2008年; 参考书目: 1.《电动力学》,蔡圣善、朱耘, 徐建军编著,高等教育出版社,2002年 2. J. D. Jackson, Classical Electrodynamics, 3rd edition (高等教育出版社,2004 英文影印版)。 科研项目24. “基于超冷里德堡原子气体的非局域量子光学效应研究”, 国家自然科学基金面上项目,2020.1-2023.12, 批准号 11975098, 60 万元, 项目负责人 23.“超冷里德堡原子气体中光的非线性传播效应研究”, 国家自然科学基金面上项目,2015.1-2018.12, 批准号 11174080, 65 万元, 项目负责人 22. “基于微纳波导的非线性与量子干涉效应研究”, 国家自然科学基金面上项目,2012.1-2015.12, 批准号 11474099, 79 万元, 项目负责人 21. “第五届上海非线性科学与应用国际会议”,国家自然科学基金国际(地区)合作与交流项目,2012.6.2012.10,批准号 11210301049, 5 万元, 项目负责人 20. “主动拉曼增益介质中快光传播的非线性效应及其应用”,国家自然科学基金面上项目, 2009.1-2011.12, 批准号 10874043, 34 万元, 项目负责人 19. “冷原子中非线性光脉冲的传播特性研究”,国家自然科学基金面上项目,2007.1-2009.12, 批准号 10674060,30 万元, 项目负责人
17. 国家重大科学研究计划项目 “量子调控研究”, 2007.1-2011.12, 批准号 2006CB724508, 本人 25 万元, 参加人员 16. “原子频标物理与技术基础”, 国家重点基础研究发展计划(973)子课题, 2005.11-2009.10, 批准号 2005CB724508, 本人 20 万元, 参加人员 15. “囚禁相互作用费米原子中的元激发与BEC-BCS交叉”, 国家自然科学基金重大研究计划子课题, 2005.1-2007.12, 批准号 90403008, 25 万元, 项目负责人 14.“玻色-爱因斯坦凝聚中的波共振相互作用研究”,国家自然科学基金面上项目,2003.1-2005.12, 批准号10274021,21 万元, 项目负责人 13.“光子晶体非线性效应的理论研究”,国家973项目子课题,2004.1-2006.12,本人 4 万元, 参加人员 12.“非线性光波导理论及其应用研究”,教育部跨世纪人才培养计划基金,2000.1-2002.12,30 万元, 项目负责人 11.“量子密码的量子噪音控制研究”,教育部高等学校骨干教师资助计划基金,2001.1-2002.12,12 万元, 项目负责人 10.“玻色-爱因斯坦凝聚中的非线性元激发研究”,国家自然科学基金面上项目,2000.1-2002.12, 批准号19975019,8.5 万元, 项目负责人 9.“玻色-爱因斯坦凝聚”,国家自然科学基金合作项目,2001.6-2001.8, 批准号10111140335,1 万元, 项目负责人 8.“分立与周期非线性介质中耦合孤子的动力学”,香港浸会大学研究基金,2000.1-2001.12,20 万港元, 主要完成人 7.“非均匀与分立媒质中的孤子动力学”,华东师范大学自然科学基金,1998.11-2000.10, 批准号 8069,2万元, 项目负责人 6. “非线性系统中的合作结构与界面现象”,西班牙 Ramon Areces 研究基金, 1996.1-1998.12,5500 万比塞塔, 参加人 5.“光学与流体系统中的非线性波和不稳定性”,西班牙科教部自然科学基金,1995.1-1997.12,批准号 PB93-081,7000 万比塞塔, 参加人 4.“低维量子铁磁与反铁磁体系中的非线性元激发研究”,国家自然科学基金面上项目,1994.1-1996.12,批准号19304004,4.5 万元, 项目负责人 3. "低维凝聚态体系中的非线性元激发研究”,华东师范大学自然科学基金,1992.10-1994.9,批准号 A0007K,0.5 万元, 项目负责人 2.“微波与电磁场的快速高精度算法及其应用“,上海市自然科学基金面上项目,1989.10-1991.9,批准号19304004,本人 1.5 万元, 参加人 1.“流体力学非传播孤子的理论研究",国家自然科学基金面上项目,1987.1-1989.12,批准号18670895,1.3 万元, 第二申请人,骨干
学术成果已在国内外主要物理学学术刊物上发表研究论文260余篇‚ 其中国外出版的著名物理学杂志200余篇(包括Physical Review系列100余篇,SCI收录200余篇)‚ SCI他引4000余次,h-指数36。若干理论研究结果已为国内外实验所证实。多次应邀在国内外学术会议上作学术报告。2004年应邀在国际力学科学中心(意大利)主办的学术研讨会上作 '玻色-爱因斯坦凝聚中的元激发'系列学术讲座。
科研论文 (按发表年度排列)
284. Yao Ou and Guoxiang Huang, 'Switch and phase shift of photon polarization qubits via double Rydberg electromagnetically induced transparency' , Phys. Rev. A 109, 023508 (2024). 283. Jinzhong Zhu and Guoxiang Huang, 'Quantum Squeezing of Matter-Wave Solitons in Bose-Einstein Condensates' , Chin. Phys. Lett. 40, 100504 (2023). 282. Yuxi Chen, Zhengyang Bai, Chao Hang and Guoxiang Huang, 'Giant nonlocal Kerr nonlinearity and polaritonic solitons in a Rydberg-dressed Bose-Einstein condensate', Opt. Express 31, 33518 (2023). 281. Huiyu Qi, Guangyue Shen, Zhaohui Li, Haotian Shi, Chao Hang, Guoxiang Huang and Guang Wu, 'Noise-tolerant single-photon imaging by using non-diffractive pulsed laser beams', Opt. Commun. 527, 128978 (2023). 280. Yanchao Zhang, Chao Hang and Guoxiang Huang, 'Matter-wave solitons in an array of spin-orbit-coupled Bose-Einstein condensates', Phys. Rev. E 108, 014208 (2023). 279. Yutao Hu, Yu Zhou, Wenchen Luo, Andrea Trombettoni and Guoxiang Huang,'Quantum multicritical behavior for coupled optical cavities with driven laser fields', New J. Phys. 25, 053001(2023). 278. Lujia Jin, Chao Hang and Guoxiang Huang, 'Multidimensional optical solitons and their manipulation in a cold atomic gas with a parity-time-symmetric optical Bessel potential', Phys. Rev. A 107, 053501 (2023). 277. Jinzhong Zhu, Yue Mu and Guoxiang Huang, 'Simultaneous quantum squeezing of light polarizations and atomic spins in a cold atomic gas', Phys. Rev. A 107, 033517 (2023). 276. Zeyun Shi and Guoxiang Huang, 'Matter-wave dromions in a disk-shaped dipolar Bose-Einstein condensate with the Lee-Huang-Yang correction', Phys. Rev. E 107, 033517 (2023). 275. Chao Hang, Zhengyang Bai, Weibin Li, Anatoly M. Kamchatnov, Guoxiang Huang, 'Accessing and Manipulating Dispersive ShockWaves in a Nonlinear and Nonlocal Rydberg Medium', Phys. Rev. A 107, 033503 (2023). 274. Yao Ding,ZhengyangBai,Guoxiang Huag, Weibin Li, 'Facilitation Induced Transparency and Single-Photon Switch with Dual-Channel Rydberg Interactions', Phys. Rev. Appl. 19, 014017 (2023). 273. Lu Qin, Chao Hang, Boris A. Malomed, Guoxiang Huang, 'Stable high-dimensional weak-light soliton molecules and their active control,' Laser & Photonics Reviews 16, 2100297 (2022). 272. Yao Ou, Qi Zhang, Guoxiang Huang, 'Quantum reflection of single photons in a cold Rydberg atomic gas,' Opt. Lett. 47, 4395 (2022). 271. Yue Mu and Guoxiang Huang, 'Stern–Gerlach effect of vector light bullets in a nonlocal Rydberg medium', Opt. Lett. 47, 6221 (2022). 270. Jinzhong Zhu and Guoxiang Huang, “Quantum squeezing of slow-light dark solitons via electromagnetically induced transparency,” Phys. Rev. A 105, 033515 (2022). 269. Jie Gao, Chao Hang, and Guoxiang Huang, Linear and nonlinear Bragg diffraction by electromagnetically induced gratings with PT symmetry and their active control in a Rydberg atomic gas,' Phys. Rev. A 105, 063511 (2022). 268. Yongmei Xue, Chao Hang , Yunhui He, Zhengyang Bai, Yuechun Jiao, Guoxiang Huang, Jianming Zhao, and Suotang Jia, 'Experimental observation of partial parity-time symmetry and its phase transition with a laser-driven cesium atomic gas,' Phys. Rev. A 105, 053516 (2022). 267. Xiujia Dong, Yao Ding, Zhengyang Bai, and Guoxiang Huang, “Magnetic-field-induced deflection of nonlocal light bullets in a Rydberg atomic gas,” Chin. Opt. Lett. 20, 041902 (2022). 266. Guoxiang Huang, Quanmin Li, Yuguang Tang, Jiaxun He, Guangtian Zhu, Tao Yang, Jian Wu, Ruijun Wu, Xuhong Qian,“Quantum doctrine and thinking across time and space, discipline, and life,” in 70 years of excellence: ECNU’s ongoing commitment to cutting-edge, crossdisciplinary research, Science(Washington DC, 2021), p.19-21. 265. Chao Hang, Dmitry A. Zezyulin, Guoxiang Huang, and Vladimir V. Konotop, “Nonlinear topological edge states in a non-Hermitian array of optical waveguides embedded in an atomic gas,” Phys. Rev. A 103, L040202 (2021). 264. Yue Mu, Lu Qin, Zeyun Shi, and Guoxiang Huang, “Giant Kerr nonlinearities and magneto-optical rotations in a Rydberg-atom gas via double electromagnetically induced transparency, ” Phys. Rev. A 103, 043709 (2021). 263. Jinzhong Zhu, Qi Zhang, and Guoxiang Huang, “Quantum squeezing of slow-light solitons,” Phys. Rev. A 103, 063512(2021). 262. Chong Shou, Qi Zhang, Wenchen Luo, and Guoxiang Huang, “Photon storage and routing in quantum dots with spin-orbit coupling,” Opt. Express 29, 9772 (2021). 261. Chong Shou and Guoxiang Huang, “Storage, Splitting, and Routing of Optical Peregrine Solitons in a Coherent Atomic System,” Front. Phys. 9, 594680 (2021). 260. Zeyun Shi and Guoxiang Huang, “Self-organized structures of two-component laser fields and their active control in a cold Rydberg atomic gas,” Phys. Rev. A 104, 013511 (2021). 259. Liping Hao, Zhengyang Bai, Jingxu Bai, Suying Bai, Yuechun Jiao, Guoxiang Huang, Jian-Ming Zhao, Weibin Li and Suotang Jia,“Observation of Blackbody Radiation Enhanced superradiance in ultracold Rydberg gases,” New J. Phys. 23, 083017 (2021). 258. Qi Zhang and Guoxiang Huang, “Quantum memory of single-photon polarization qubits via double electromagnetically induced transparency,” Phys. Rev. A 104, 033714 (2021). 257. Zeyun Shi and Guoxiang Huang, “Selection and cloning of periodic optical patterns with a cold Rydberg atomic gas,” Opt. Lett. 46, 5344 (2021). 256. Zhengyang Bai, Charles S. Adams, Guoxiang Huang, and Weibin Li, “Self-Induced Transparency in Warm and Strongly Interacting Rydberg Gases,” Phys. Rev. Lett. 125, 263605 (2020). 255. Qi Zhang and Guoxiang Huang, “Suppression of quantum noise by two-mode squeezed states for photon propagation under conditions of electromagnetically induced transparency and four-wave mixing,” Phys. Rev. A 101, 033806 (2020). 254. Zhengyang Bai, Qi Zhang, and Guoxiang Huang, “Quantum reflections of nonlocal optical solitons in a cold Rydberg atomic gas,” Phys. Rev. A 101, 053845 (2020). 253. Yibin Xu, Zhengyang Bai, and Guoxiang Huang. “Giant, low-loss magnetic responses and ultraslow magnetic solitons via plasmon-induced transparency,” Phys. Rev. A 101, 053859 (2020). 252. Huanhuan Xu, Chao Hang and Guoxiang Huang,“Nonlocal nonlinear optical X waves and their active control in a Rydberg atomic gas,” Phys. Rev. A 101, 053832 (2020). 251. Zeyun Shi, Weibin Li, and Guoxiang Huang “Structural phase transitions of optical patterns in atomic gases with microwave-controlled Rydberg interactions,” Phys. Rev. A 102, 023519 (2020). 250. Lu Qin, Chao Hang, and Guoxiang Huang, “High-fidelity and controllable cloning of high-dimensional optical beams with a Rydberg atomic gas,” Phys. Rev. A 102, 063707 (2020). 249. Chong Shou and Guoxiang Huang, “Storage and retrieval of slow-light dark solitons,” Opt. Lett. 45, 6787 (2020). 248. Zhengyang Bai, Weibin Li, and Guoxiang Huang, “Stable single light bullets and vortices and their active control in cold Rydberg gases”, Optica 6, 309-317 (2019). 247. Chao Hang, Gregory Gabadadze, and Guoxiang Huang, “Soliton diffusion in a Bose-Einstein condensate: Asignature of the analogue Hawking radiation,” Phys. Lett. B 793, 390C395 (2019). 246. Lu Qin, Chao Hang, and Guoxiang Huang, “Controllable PT phase transition and asymmetric soliton scattering in atomic gases with linear and nonlinear potentials,” Phys. Rev. A 99, 043832 (2019). 245. Chong Shou and Guoxiang Huang, “Slow-light soliton beam splitters,” Phys. Rev. A 99, 043821 (2019). 244. Chao Hang, Weibin Li, and Guoxiang Huang, “Nonlinear light diffraction by electromagnetically induced gratings with PT symmetry in a Rydberg atomic gas,” Phys. Rev. A 100, 043807 (2019). 243. Zhiming Chen, Hongqiang Xie, Qun Li, and Guoxiang Huang, “Stern-Gerlach detection of optical Thirring solitons in a coherent atomic system,” Phys. Rev. A 100, 013827 (2019). 242. Li Jin, Chao Hang, Yanyi Jiang, Chengjie Zhu, Zhan Zheng, Yuan Yao, Guoxiang Huang, and Longsheng Ma, “Towards generation of millihertz-linewidth laser light with 10−18 frequency instability via four-wave mixing,” Appl. Phys. Lett. 114, 051104 (2019). 241. Zhengyang Bai, Qi Zhang, and Guoxiang Huang, “Nonlinear polaritons in metamaterials with plasmon-induced transparency [Invited],” Chin. Opt. Lett. 17, 012501 (2019). 240. Chong Shou and Guoxiang Huang, “Highly efficient and controllable surface polariton beam splitters, Phys. Rev. A 100, 063844 (2019). 239. Junfeng Su, Datang Xu, and Guoxiang Huang, “Storage and retrieval of surface polaritons,” ACS Photonics 5, 2496-2502 (2018). 238. Qi Zhang, Zhengyang Bai, and Guoxiang Huang, “Fast-responding property of electromagnetically induced transparency in Rydberg atoms,” Phys. Rev. A 97, 043821 (2018). 237. Datang Xu, Chao Hang, and Guoxiang Huang, “Improvement of the memory quality of optical pulse pairs in atomic systems via four-wave mixing,” Phys. Rev. A 98, 043848 (2018). 236. Chao Hang and Guoxiang Huang, “Parity-time symmetry along with nonlocal optical solitons and their active controls in a Rydberg atomic gas,” Phys. Rev. A 98, 043840 (2018). 235. Miao Wang, Chao Hang, and Guoxiang Huang, “Nonlinear propagation of four components with different polarizations and frequencies in a single optical pulse by using a five-level atomic system,” J. Opt. Soc. Am. B 35, 2217-2227 (2018). 234. Chao Hang, Gregory Gabadadze, and Guoxiang Huang, “Realization of non-PT-symmetric optical potentials with all-real spectra in a coherent atomic system,” Phys. Rev. A 95, 023833 (2017). 233. Zhengyang Bai, Datang Xu, and Guoxiang Huang, “Storage and retrieval of electromagnetic waves with orbital angular momentum via plasmon-induced transparency,” Opt. Express 25, 785 (2017). 232. Chao Hang and Guoxiang Huang, “Parity-time symmetry with coherent atomic gases,” Advances in Physics: X 2, 737-783 (2017) (invited review). 231. Datang Xu, Zhiming Chen, and Guoxiang Huang, “Ultraslow weak-light solitons and their storage and retrieval in a kagome-structured hollow-core photonic crystal fiber,” Opt. Express 25, 19094 (2017). 230. Junyang Liu, Chao Hang, and Guoxiang Huang, “Weak-light vector rogue waves, breathers, and their Stern-Gerlach deflection via electromagnetically induced transparency,” Opt. Express 25, 23408 (2017). 229. Zhang Qi, Zhengyang Bai, and Guoxiang Huang, “Analogue of double-Λ-type atomic medium and vector plasmonic dromions in a metamaterial,” Opt. Express 25, 25447 (2017). 228. Datang Xu, Zhengyang Bai, and Guoxiang Huang, “Storage and retrieval of light pulses in a fast-light medium via active Raman gain,” Phys. Rev. A 94, 063857 (2016). 227. Zhengyang Bai and Guoxiang Huang, “Plasmonic dromions in a metamaterial via plasmon-induced transparency”, Phys. Rev. A 93, 013818 (2016). 226. Junyang Liu, Chao Hang, and Guoxiang Huang, “Weak-light rogue waves, breathers, and their active control in a cold atomic gas via electromagnetically induced transparency”, Phys. Rev. A 93, 063836 (2016). 225. Qi Zhang, Chaohua Tan, and Guoxiang Huang, “Lossless Airy Surface Polaritons in a Metamaterial via Active Raman Gain”, Sci. Rep. 6, 21143 (2016). 224. Yaroslav Khatashov, Chao Hang, Vladimir V. Konotop, Victor A. Vysloukh, Guoxiang Huang, and Lluis Torner, “Suppression and restoration of disorder-induced light localization mediated by PT-symmetry breaking”, Laser Photonics Rev. 10, 100 (2016). 223. Yaroslav Khatashov, Chao Hang, Guoxiang Huang, and Lluis Torner, “Three-dimensional topological solitons supported by PT-symmetric optical lattices”, Optica 3, 1048 (2016). 222. Zhengyang Bai and Guoxiang Huang, “Enhanced third-order and fifth-order Kerr nonlinearities in a cold atomic system via Rydberg-Rydberg interaction”, Opt. Express 24, 4442-4461 (2016). 221. Chao Hang, Guoxiang Huang, and Vladimir V. Konotop, “Tunable spectral singularities: coherent perfect absorber and laser in an atomic medium”, New J. Phys. 18, 085003 (2016). 220. Chao Hang, Dmitry A. Zezyulin, Guoxiang Huang, and Vladimir V. Konotop, “PT-symmetric waveguides with tunable parameters”, IEEE Journal of Selected Topics in Quantum Electronics 22, 4402710 (2016). 219. Zhengyang Bai, and Guoxiang Huang, “Plasmonic solitons and dromions via plasmon-induce transparency”, Journal of Physics: Conference Series 752, 012005 (2016). 218. 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). 217. Zhengyang Bai, Guoxiang Huang, Lixiang Liu, and Shuang Zhang, “Giant Kerr nonlinearity and low-power gigahertz solitons via plasmon-induced transparency”, Sci. Rep. 5, 13780 (2015). 216. Chaohua Tan and Guoxiang Huang, “Surface polaritons in a negative-index metamaterial with active Raman gain”, Phys. Rev. A 91, 023803 (2015). 215. 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). 214. 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). 213. Chao Hang, Gregory Gabadadze, and Guoxiang Huang, “Giant Kerr nonlinearity and superluminal and subluminal polaritonic solitons in a Bose-Einstein condensate via superradiant scattering”, Phys. Rev. A 92, 033805 (2015). 212. Chao Hang, Yaroslav V. Kartashov, Guoxiang Huang, and Vladimir V. Konotop, “Localization of light in a parity-time-symmetric quasi-periodic lattice”, Opt. Lett. 40, 2758 (2015). 211. Qi Zhang, Chaohua Tan, Chao Hang, and Guoxiang Huang, “Low-loss Airy surface plasmon polaritons”, Chin. Opt. Lett. 13, 082401 (2015). 210. Hui-jun Li, Yu-hua Duan, Wen Wen, and Guoxiang Huang, “Stable High-Dimensional Spatial Optical Solitons and Vortices in an Active Raman Gain Medium”, J. Phys. Soc. Japan 84, 054402 (2015). 209. Chao Hang and Guoxiang Huang, “Guiding ultraslow weak-light bullets with Airy beams in a coherent atomic system”, Phys. Rev. A 89, 013821 (2014). 208. 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). 207. Hui-jun Li, Jian-pen Dou, and Guoxiang Huang, “Realization of two-dimensional Aubry- Andre localization of light waves via electromagnetically induced transparency”, Phys. Rev. A 89, 033843 (2014). 206. Zhiming Chen and Guoxiang Huang, “Trapping of weak signal pulses by soliton and trajec- tory control in a coherent atomic gas”, Phys. Rev. A 89, 033817 (2014). 205. Chao Hang and Guoxiang Huang, ''Storage and retrieval of Airy light wave packets in a coherent atomic system,'' Phys. Rev. A 90, 023822 (2014). 204. Chaohua Tan and Guoxiang Huang, “Superluminal surface polaritonic solitons at weak light level via coherent population oscillation”, Phys. Rev. A 89, 033860 (2014). 203. 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 po- laritons”, Appl. Phys. Lett. 104, 203108 (2014). 202. 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). 201. 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). 200. Chaohua Tan and Guoxiang Huang, “Crossover from electromagnetically induced trans- parency to Autler-Townes splitting in open ladder systems with Doppler broadening”, J. Opt. Soc. Am. B 31, 704 (2014). 199. 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). 198. Chengjie Zhu, L. Deng, E. D. Hagley, and Guoxiang Huang, “Optical self-focusing effect in coherent light scattering with condensates”, Laser Phys. 24, 065402 (2014). 197. Chao Hang, Guoxiang Huang, and V.V. Konotop, “PT Symmetry with a system of three-level atoms”, Phys. Rev. Lett. 110, 083604 (2013). 196. 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). 195. Chao Hang and Guoxiang Huang, “Slow-light Airy wave packets and their active control via electromagnetically induced transparency,” Phys. Rev. A 88, 013825 (2013). 194. 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). 193. Chao Hang, Dmitry A. Zezyulin, Vladimir V. Konotop, and Guoxiang Huang, “Tunable nonlinear parityCtime-symmetric defect modes with an atomic cell,” Opt. Lett. 38, 4033 (2013). 192. Jin Xu and Guoxiang Huang, “Electromagnetically induced transparency and ultraslow op- tical solitons in a coherent atomic gas filled in a slot waveguide”, Opt. Expr. 21, 5149(2013). 191. Zhengyang Bai, Chao Hang, and Guoxiang Huang, “Subluminal and superluminal terahertz radiation in metamaterials with electromagnetically induced transparency,” Opt. Expr. 21, 17736 (2013). 190. Hui-jun Li, Jian-peng Dou, and Guoxiang Huang, “PT symmetry via electromagnetically induced transparency”, Opt. Expr. 21, 32053 (2013). 189. Liang Li, Chengjie Zhu, L. Deng, and Guoxiang Huang, “Electromagnetically induced trans- parency and nonlinear pulse propagation in an atomic medium confined in a waveguide,” J. Opt. Soc. Am. B 30, 197 (2013). 188. 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). 187. Chaohua Tan, Chengjie Zhu, and Guoxiang Huang, “Analytical approach on linear and nonlinear pulse propagations in an open Λ-type molecular system with Doppler broadening,” J. Phys. B: At. Mol. Opt. Phys. 46, 025103 (2013). 186. Chenxu Li, Xiaodong Ma, Yong-Li Ma, and Guoxiang Huang, “Resonant Interactions of Col- lective Modes in a Quasi-One-Dimensional Attractive Bose-Einstein Condensate,” J. Phys. Soc. Japan 82, 044002 (2013). 185. Zhengyang Bai, Chao Hang, and Guoxiang Huang, “Classical Analogs of Double Electro- magnetically Induced Transparency,” Opt. Commun. 291, 253-258 (2013). 184. 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. B 27, 1350065 (2013). 183. Zhengyang Bai, Chao Hang, and Guoxiang Huang, “Storage and retrieval of ultraslow optical solitons in coherent atomic system,” Chin. Opt. Lett. 11, 012701 (2013). 182. Chao Hang and Guoxiang Huang, “Stern-Gerlach Effect of Weak-Light Ultraslow Vector Solitons”, Phys. Rev. A 86, 043809 (2012). 181. Hui-jun Li, Yuan-po Wu, Chao Hang, and Guoxiang Huang, “(3+1)-dimensional superlu- minal spatiotemporal optical solitons and vortices at weak light level”, Phys. Rev. A 86, 043829 (2012). 180. Chao Hang and Guoxiang Huang, “Ultraslow optical solitons in atomic media with sponta- neously generated coherence”, J. Opt. Soc. Am. B 29, 2009 (2012). 179. 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 wells via resonant tunneling”, Opt. Expr. 20, 8485 (2012). 178. 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). 177. Yang Jin-Jin, Li Hui-Jun, Wen Wen, and Huang Guo-Xiang, “Optical bistability via active Raman gain in an n-type atomic medium”, Acta Phys. Sin. 61, 224204 (2012). 176. Hui-jun Li, Liangwei Dong, Chao Hang, and Guoxiang Huang, “Gain-assisted high-dimensional self-trapped laser beams at very low light level via atomic coherence”, Phys. Rev. A 83, 023816 (2011). 175. Jing Cheng and Guoxiang Huang, “Control localization transition of light in quasiperiodically electromagnetically induced waveguides”, Phys. Rev. A 83, 053847 (2011). 174. Hui-jun Li, Yuan-po Wu, and Guoxiang Huang, “Stable weak-light ultraslow optical bullets via atomic coherence”, Phys. Rev. A 84, 033816 (2011). 173. Chengjie Zhu and Guoxiang Huang, “Quantum Phase Gates, Highly Entangled Photons, and Weak Slow-Light Soliton Pairs in Coupled Quantum-Well Structures”, Optics Express 19, 23364 (2011). 172. 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. Expr. 19, 1963 (2011). 171. Guoxiang Huang, Chao Hang, and Chengjie Zhu, “Nonlinear theory of fast-light propagation in active Raman gain media”, Acta Optica Sinica 31, 0900133 (2011) (in Chinese). 170. Wen Wen, Shun-Qing Shen, and Guoxiang Huang, “Propagation of Sound and Supersonic Bright Solitons in Superfluid Fermi Gases in the BCS-BEC Crossover”, Phys. Rev. B 81, 014528 (2010). 169. 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). 168. Chao Hang and Guoxiang Huang, “Highly entangled photons and rapidly responding polar- ization qubit phase gates in a room-temperature active Raman gain medium”, Phys. Rev. A 82, 053818 (2010). 167. Chao Hang and Guoxiang Huang, “Giant Kerr nonlinearity and weak-light superluminal optical solitons in a four-state atomic system with gain doublet,” Opt. Expr. 18, 2952-2966 (2010). 166. Chengjie Zhu, Chao Hang, and Guoxiang Huang, “Gain-assisted giant Kerr nonlinearity in a Λ-type system with two-folded lower level”, Eur. Phys. J. D 56, 231(2010). 165. Liang Li and Guoxiang Huang, “ Slow-light solitons in three-level atomic systems modified by a microwave field”, Eur. Phys. J. D 58, 339(2010). 164. Bin Luo, “Ultraslow Optical Solitons via Electromagnetically Induced Transparency: A Density-Matrix Approach,” Chin. Phys. B 19, 054214 (2010). 163. Chengjie Zhu and Guoxiang Huang, “Slow-light solitons in coupled asymmetric quantum wells via interband transition,” Phys. Rev. B 80, 235408 (2009). 162. Wen Wen and Guoxiang Huang, “Dynamics of dark solitons in superfluid Fermi gases in the BCS-BEC crossove”, Phys. Rev. A 79, 023605 (2009). 161. 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). 160. 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). 159. 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). 158. Hui-jun Li, Chao Hang, and Guoxiang Huang, “Depletion of control field during the propa- gation of ultraslow optical soliton”, J. Opt. Soc. Am. B 26, 2028 (2009). 157. Huijun Li, L. Deng, and Guoxiang Huang, “Dynamics of Coupled Ultraslow Optical Solitons in a Coherent Four-State Double-Lambda System”, Euro. Phys. J. D 55, 99 (2009). 156. Chao Hang and Guoxiang Huang, “Phase-controlled gain, phase shift and group velocity using a room-temperature active-Raman-gain mediu”, Chin. Opt. Lett. 7, 549-552 ( 2009). 155. Guoxiang Huang, Chao Hang, and L. Deng, “Gain-sssisted superluminal optical solitons at very low light intensity”, Phys. Rev. A 77, 011803R (2008). 154. Chao Hang and Guoxiang Huang, “Weak-light ultraslow vector solitons via electromagneti- cally induced transparency”, Phys. Rev. A 77, 033830 (2008). 153. Hui-jun Li, Chao Hang, Guoxiang Huang, and L. Deng, “High-order nonlinear Schr?dinger equation and superluminal optical solitons in room-temperature active-Raman-gain medi”, Phys. Rev. A 78, 023822 (2008). 152. 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). 151. Yu Zhou, Wen Wen, and Guoxiang Huang, “Frequency shift and mode coupling of the collective modes of superfluid Fermi gases in the BCS-BEC crossove”, Phys. Rev. B 77, 104527 (2008). 150. Yun Li, Chao Hang, Lei Ma, Weiping Zhang, and Guoxiang Huang, “Quantum random walks in a coherent atomic system via electromagnetically induced transparenc”, J. Opt. Soc. Am. B 25, C39-C45 (2008). 149. 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). 148. Guoxiang Huang and Nicolas Compagnon, “Complete and orthonormal eigenfunctions of excitations to a one-dimensional dark soliton”, Phys. Lett. A 372, 321-326(2008). 147. Chao Hang and Guoxiang Huang, “Ultraslow optical solitons in a four-level tripod atomic system”, Phys. Lett. A 372, 3129 (2008). 146. 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 (2008). 145. 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). 144. 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) 143. Xiaodong Ma, Yong-li Ma, and Guoxiang Huang, “Analytical Calculations on Landau Damp- ing of Collective Modes in Anisotropic Bose-Einstein Condensates”, Phys. Rev. A 75, 013628(2007). 142. 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). 141. 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). 140. Jing Wang, Chao Hang, and Guoxiang Huang, “Weak-light gap solitons in a resonant three- level system”, Phys. Lett. A 366, 528-533 (2007). 139. Wen Wen, and Guoxiang Huang, “Collective modes of quasi-one- and quasi-two-dimensional superfluid Fermi gases in a BCS-BEC crossover”, Phys. Lett. A 362, 331-336(2007). 138. 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). 137. Chao Hang and Guoxiang Huang, “Faraday Rotation in a Resonant Five-Level System via Electromagnetically Induced Transparency”, Chinese Opt. Lett. 5, 47-50(2007). 136. 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). 135. 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). 134. 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). 133. 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). 132. 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)[download] 131. Jacob Szeftel, Patrick Leroux-Hugon, and Guoxiang Huang, “Solitary acoustoelectric mi- crowave domain in piezoelectric semiconductors”, Europhysics Lett. 73(5), 752-758(2006). 130. Guoxiang Huang, Chao Hang, and L. Deng, “Propagation of shape-preserving optical pulses in inhomogeneously broadened multi-level systems”, European Physical Journal D 40, 437- 444(2006). 129. Guoxiang Huang, L. Deng, Jiaren Yan, and Bambi Hu, “Quantum depletion in a soliton condensate”, Phys. Lett. A 357 (2), 150-153(2006). 128. Guoxiang Huang and Chao Hang, “Solitons in a (N+1) Level Medium”, Phys. Lett. A 354, 406-409(2006). 127. 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). 126. 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). 125. Guoxiang Huang and Jacob Szeftel, “Coupled Optical Solitons for Pulse Propagation in Multi-Level Media”, Chin. Phys. Lett. 23, 834 (2006). 124. Yu Zhou, Xiaodong Ma, and Guoxiang Huang, “Collective modes of a quasi-two-dimensional superfluid Fermi gas in BCS-BEC crossover”, Chin. Phys. Lett. 23, 2662(2006). 123. Xiaodong Ma, Yu Zhou, Yong-li Ma, and Guoxiang Huang, “Landau Damping of Collective Modes in a Harmonically Trapped Bose-Einstein Condensate”, Chinese Phys. 15, 1871-1878(2006). 122. Chao Hang and Guoxiang Huang, “High-Dimensional Nonlinear Envelope Equations and Nonlinear Localized Excitations in Photonic Crystals”, Commun. Theor. Phys. 46, 149-154 (2006). 121. 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). 120. 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). 119 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). 118. 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). 117. Yousheng Xu, Yang Liu, and Guoxiang Huang, “Lattice Boltzmann simulation of momentum and energy transfer in a porous medium”, Mod. Phys. Lett., 19(28-29), 1531-1534(2005). 116. 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). 115. Weina Cui and Guoxiang Huang, “Second-harmonic generation in optical fibers induced by a cross-phase modulation effect”, Chinese Phys. Lett. 22, 3083-3086(2005). 114. B. Wu, Yousheng Xu, Yang Liu, and Guoxiang Huang, “Numerical simulation for separation of multi-phase immiscible fluids in porous media”, Chinese Phys. 14(10), 2046-2051(2005). 113. Weina Cui, Guoxiang Huang, and Bambi Hu, “Second-harmonic generation in optical fibers on a continuous-wave background”, Phys. Rev. E 70, 057602(2004). 112. 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). 111. Bambi Hu, Guoxiang Huang, and Yong-li Ma, “Analytical solutions of the Bogoliubov-de Gennes equations for the excitations of a trapped Bose-condensed gas”, Phys. Rev. A 69, 063608(2004). 110. 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). 109. Weina Cui and Guoxiang Huang, “Three-wave resonant interaction in optical fibers on a continuous background”, Chinese Phys. Lett. 21, 2437-2440(2004). 108. Yousheng Xu, Yang Liu, and Guoxiang Huang, “Using digital Imaging to characterizing threshold dynamic parameters in porous media based on lattice Boltzmann method”, Chinese Phys. Lett. 21, 2454-2457(2004). 107. Yousheng Xu, Yijun Zhong, and Guoxiang Huang, “Lattice Boltzmann method for diffusion- reaction-transport processes in heterogeneous porous media”, Chinese Phys. Lett. 21, 1298- 1301(2004). 106. Guoxiang Huang, “Second Harmonic Generation of Propagating Collective Excitations in Bose-Einstein Condensates”, Chinese Physics, 13, 1866-1876(2004). 105. Yousheng Xu, Huabin Li, Haiping Fang, and Guoxiang Huang, “Lattice-Boltzmann simu- lation for nonlinear flow in porous media with coupling reaction”, Acta Physica Sinica 53, 773-777(2004)(in Chinese). 104. Chunliu Sun and Guoxiang Huang, “Three-wave resonant interaction of Bogoliubov exci- tations in a Bose-Einstein condensate with diffraction”, Commun. Theor. Phys. 41, 699- 706(2004). 103. 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). 102. 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). 101. Hongwei Xiong, Shujuan Liu, and Guoxiang Huang, “Anomalous fluctuations of two-dimensional Bose-Einstein condensates”, Phys. Rev. A 67, 055601(2003). 100. 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). 99. Hongwei Xiong, Shujuan Liu, and Guoxiang Huang, “Pauli paramagnitism of an ideal Fermi gas within canonical ensemble”, Phys. Lett. A 318, 281-286(2003). 98. 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). 97. Hongwei Xiong, Shujuan Liu, and Guoxiang Huang, “Microcanonical ensemble for Bose- condensed gas in optical lattices”, J. Phys. B: Atom. Mol. Opt. 36, L121-L1259(2003). 96. 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). 95. Jacob Szeftel, Guoxiang Huang, and Vladmir Konotop, “On the existence of moving breathers in one-dimensional anharmonic lattices”, Physica D 181 , 215-221(2003). 94. Guoxiang Huang, “(2+1)-dimensional envelope solitons in a disk-shaped Bose-Einstein con- densate”, Chinese Phys. Lett. 20, 802-805(2003). 93. Guoxiang Huang, Bambi Hu, and Jacob Szeftel, “Three-wave parametric simultons in non- linear lattices”, Int. J. Mod. Phys. B 17, 4215-4221(2003). 92. Weina Cui, Chunliu Sun, and Guoxiang Huang, “Dromion excitations in self-defocusing optical media”, Chinese Phys. Lett. 20, 246-249(2003). 91. Weina Cui, Guoxiang Huang, and Chunliu Sun, “Three-wave resonant interactions in self- defocusing optical media”, Chinese Phys. Lett. 20, 1279(2003). 90. Hongwei Xiong, Shujuan Liu, Guoxiang Huang, and Zaixin Xu, “Canonical statistics of trapped ideal and interacting Bose gases”, Phys. Rev. A 65, 033609(2002). 89. Guoxiang Huang, Jacob Szeftel, and Shanhua Zhu, “Dynamics of dark solitons in quasi-one- dimensional Bose-Einstein condensates”, Phys. Rev. A 65, 053605(2002). 88. Xin-Qi Li, Li-Xiang Cen, Guoxiang Huang, and YiJin Yang, “Nonadiabatic geometric quantum computation with trapped ions”, Phys. Rev. A 66, 042320(2002). 87. Guoxiang Huang and Manuel G. Velarde, “Hydrodynamic simultons in a liquid layer”, J. Fluid Mech. 466, 1-15(2002). 86. 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). 85. 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). 84. Jacob Szeftel and Guoxiang Huang, “Anharmonic excitations in the FPU and FK models”, European Physical Journal B 27, 329-334(2002). 83. Hongwei Xiong, Shujuan Liu, and Guoxiang Huang, “Phase diffusion of Bose-Einstein con- densation close to zero temperature”, Phys. Lett. A 301, 203(2002). 82. Guoxiang Huang and Shanhua Zhu, “Dark lump excitations in Bose-Einstein condensates”, Chinese Phys. Lett. 19, 17(2002). 81. Shanhua Zhu, Guoxiang Huang, and Weina Cui, “Vectorial coupled-mode solitons in one- dimensional photonic crystals”, Chinese Phys. 11, 919(2002). 80. Shanhua Zhu, Weina Cui, and Guoxiang Huang, “Coupled gap solitons in one-dimensional photonic crystals”, Acta Physica Sinica 51, 789(2002). 79. 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). 78. Guoxiang Huang, V. V. Konotop, Hon-Wah Tam, and Bambi Hu, “Nonlinear modulation of multi-dimensional lattice waves”, Phys. Rev. E 64, 056619(2001). 77. 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). 76. Hongwei Xiong, Shujuan Liu, Guoxiang Huang, Zhijun Xu, and Cunyuan Zhang, “Criti- cal 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). 75. 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). 74. Guoxiang Huang, “Korteweg-de Vries Description of Dark Solitons in Bose-Einstein Condensates”, Chinese Phys. Lett. 5, 828 (2001) 73. Shanhua Zhu and Guoxiang Huang, “Coupled solitons in alternating Heisenberg ferromag- netic chains with a small magnon band gap”, Chinese Phys. Lett. 18, 1316(2001). 72. Guoxiang Huang, “Temporal optical solitons via multistep cascading”, Chinese Phys., 10(5), 418-423(2001). 71. Guoxiang Huang, “Parametric simultons in one-dimensional nonlinear lattices”, Chinese Phys., 10(6), 523-530(2001). 70. Shanhua Zhu and Guoxiang Huang, “Coupled band gap solitons in alternating Heisenberg ferromagnetic Chians”, Commun. Theor. Phys. 36, 477(2001). 69. Shujuan Liu and Guoxiang Huang, “ Condensation temperature of Bose-Einstein condensa- tion with repulsive interaction”, J. East China Normal Univ.(Natural), No. 2, 46-49(2001)(in Chinese). 68. 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). 67. Guoxiang Huang, “Exact solitary wave solutions of three-wave interaction equations with dispersion”, J. Phys. A 33, 8477-8482(2000). 66. 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). 65. Guoxiang Huang and Bambi Hu, “Optical solitons with Gaussian tails”, Commun. Theor. Phys. 33, 481-486(2000). 64. 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). 63. Guoxiang Huang, Peiqing Tong, and Bambi Hu, “Coupling of cutoff modes in nonlinear lattices”, J. Phys.: Condens. Matter 11, 2759-2771(1999). 62. Guoxiang Huang and Bambi Hu, “Asymmetric gap solitons in diatomic lattices with cubic and quartic nonlinearity”, Phys. Rev. B 57, 5746-5757(1998). 61. 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). 60. 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). 59. 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). 58. Shanhua Zhu, Guoxiang Huang, and Zaixin Xu, “Nonlinear excitations in alternating Heisen- berg ferromagnets”, Acta Physica Sinica 46, 447-452(1997). 57. Guoxiang Huang, and M. G. Velarde, “Oblique interactions of two spatial dark optical soli- tons in defocusing media”, J. Opt. Soc. Am. B 14, 2850-2855(1997). 56. 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). 55. Guoxiang Huang, and M. G. Velarde, “Head-on collision of two concentric ion acoustic soli- tary waves”, Phys. Rev. E 53, 2988-2991(1996). 54. 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). 53. 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). 52. 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). 51. Guoxiang Huang, “Gap solitons and resonant kinks in ferromagnetic Heisenberg chains”, Commun. Theor. Phys. 25, 415-420(1996). 50. Guoxiang Huang, and Zhiqiang Jia, “Self-induced gap solitons in Heisenberg ferromagnetic chains”, Phys. Rev. B 51, 613-616(1995). 49. Guoxiang Huang, “Soliton excitations in one-dimensional diatomic lattices”, Phys. Rev. B 51, 12347-12360(1995). 48. Senyue Lou, Guoxiang Huang, “Experimental study of the solitons in nonlinear diatomic macro-lattices”, Mod. Phys. Lett. B 9, 1231-1241(1995). 47. Guoxiang Huang, “Soliton excitations in a diatomic lattice with nonlinear on-site potentials”, Acta Physica Sinica (overseas edition) 4, 489-495(1995). 46. Senyue Lou, Ji Lin, Jun Yu, and Guoxiang Huang, “Macro-experimental observation of the staggered mode in lattice systems”, Chinese Phys. Lett. 12, 400-402(1995). 45. Guoxiang Huang, “Gap solitons in damped and parametrically driven nonlinear diatomic lattices”, Phys. Rev. E 49, 5893-5896(1994). 44. Guoxiang Huang, “Solitary waves in Marangoni-B´enard convecting fluid”, Acta Physica Sinica (overseas edition) 3, 900-908(1994). 43. 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). 42. 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). 41. Guoxiang Huang, Jun Shen, and Hongjun Quan, “Noncutoff kinks in damped and paramet- rically driven nonlinear lattices” Phys. Rev. B 48, 16795-16798(1993). 40. 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). 39. Guoxiang Huang, Hongfang Li, and Xianxi Dai, “Soliton and soliton-pair as the intrinsic phonon localized modes in an anharmonic monoatomic chain”, Chinese Phys. Lett. 9, 151-154(1992). 38. Guoxiang Huang, and Zaixin Xu, “Kinks and solitons in coupled pendulum lattices”, Chinese Phys. Lett. 9, 659-662(1992). 37. 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). 36. Zhu-Pei Shi, Guoxiang Huang, and Ruibao Tao, “Envelope kink excitations in a quantum anisotropic antiferromagnetic chain”, Phys. Rev. B 43, 8583-8586(1991). 35. Guoxiang Huang, “Exact solitary wave solutions of the Sakuma-Nishiguchi equation”, Phys. Rev. B 44, 3377-3379(1991). 34. Zhu-Pei Shi and Guoxiang Huang, “Envelope kink phonon localized modes in a homogeneous anharmonic chain”, Phys. Rev. B 44, 12601-12604(1991). 33. 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). 32. 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). 31. Senyue Lou, Guoxiang Huang, and Hangru Ruan, “Exact solitary waves in a convecting fluid”, J. Phys. A: Math. & Gen. 24, L587-L590(1991). 30. 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). 29. 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). 28. Senyue Lou, Guoxiang Huang, and Guangjiong Ni, “The solitonlike solutions of φ6 and φ4 + φ3 models with and without dissipation”, Commun. Theor. Phys. 15, 67-73(1991). 27. 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). 26. 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). 25. 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). 24. 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). 23. 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). 22. 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). 21. Senyue Lou, Guoxiang Huang, and Guangjiong Ni, “Transforming some special solutions of φ4 model to that of φ6 and φ4 + φ3 model”, Phys. Lett. A 146, 45-50(1990). 20. Guoxiang Huang, Jiaren Yan, and Xianxi Dai, “Investigations on nonpropagating gravity- surface tension solitons in rectangular resonator”, Acta Physica Sinica 39, 1234-1241(1990). 19. 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). 18. Guoxiang Huang, Senyue Lou, and Xianxi Dai, “Cylindrical envelope solitary waves”, Chi- nese Phys. Lett. 7, 398-401(1990). 17. Guoxiang Huang, Xianxi Dai, and Senyue Lou, “Generalization to cylindrical coordinate system for the higher-order KdV equation and the higher-order KP equation”, Chinese Phys. Lett. 7, 64-67(1990). 16. 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). 15. Senyue Lou, Guoxiang Huang, and Guangjiong Ni, “A model with spontaneous symmetry breaking and its kink soliton solutions”, Commun. Theor. Phys. 13, 79-83(1990). 14. Guoxiang Huang, Senyue Lou, and Xianxi Dai, “Model equations and their solitary wave solutions in cylindrical coordinate system”, Commun. Theor. Phys. 13, 103-107(1990). 13. 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). 12 . Guoxiang Huang, Senyue Lou, Xianxi Dai and Jiaren Yan, “A model equation and its exact two-dimensional solitary wave solutions for water wave dynamics”, Chinese Phys. Lett. 6, 393-396(1989). 11. Guoxiang Huang and Jiaren Yan, “Envelope solitons of stress wave on the wall of a fluid-filled circular tube”, Chinese J. Acoustics 14, 467-474(1989). 10. Guoxiang Huang, Jiaren Yan, and Hong Li, “Larraza-Putterman equation including viscosity and external drive”, Chinese J. Acoustics 14, 357-363(1989). 9. Guoxiang Huang, Jiaren Yan, and Fengwu Zou, “The second harmonic resonance for shallow water surface waves in a rectangular trough”, Appl. Math. Mech. 9, 985-989(1989). 8. Jiaren Yan and Guoxiang Huang, “Nonpropagating solitary waves on surface of fluid with small viscosity excited by external drive”, Chinese. Phys. Lett. 5, 305-308(1988). 7. Guoxiang Huang and Jiaren Yan, “Stress solitary waves in tubes with axial symmetries”, J. Xiangtan Univ. 10, 24-30(1988) (in Chinese). 6. 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. 5. Jiaren Yan and Guoxiang Huang, “Envelope Solitary Waves in Nonlinear Transmission Lines”, Appl. Math. 1, 67-73(1988) (in Chinese). 4. Guoxiang Huang, “Theory of nonpropagating solitons including surface-tension effect”, Appl. Math. Mech. 8, 985-989(1987). 3. Guoxiang Huang “On the relation between characteristic functions and partition functions”, J . Xiangtan Univ. 9, 62-70(1987) (in Chinese). 2. Guoxiang Huang, “On symmetry”, J. Xiangtan Univ. 8, 16-21(1986) (in Chinese). 1. Guoxiang Huang, “Calculations of electric potential distribution and mutual energy by in- troducing multi-moment experessions of electrical charge density”, J. Xiangtan Univ. 7,77-83(1985) (in Chinese). 图书与专著 4. 量子思维,钱旭红等著 (华东师范大学出版社, 2023年1月). 3. Guoxiang Huang, “Collective Excitations in Superfluid Fermi Gases in the BCS-BEC Crossover” in Without Bounds: A Scientific Canvas of Nonlinearity and Complex Dynamics, edited by R. G. Rubio, Y. S. Ryazantsev, V. M. Starov, Guoxiang Huang, A. P. Chetverikov, P. Arena, A. A. Nepomnyashchy, A. Ferrus, and E. G. Morozov, (Springer-Verlag, Berlin and Heidelberg, GmbH & Co. K, 2013), pp 758 (ISBN: 3642340695). 2. 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. 1. Guoxiang Huang, Zaixin Xu, and Wenliu Xu, “Solitary waves in B´enard-Marangoni convecting Fluid”, in: International Workshop on Statistical Physics, edited by Z. Yang (Beijing, Beijing Normal Univ. Press), 369-378 (1993). 荣誉及奖励1990 复旦大学光华奖学金 1993 上海市高校优秀青年教师 1994 华东师范大学首批十佳优秀青年教师 1995 上海市高校优秀青年教师 1996 华东师范大学首批跨世纪学术带头人 1997 教育部科技进步二等奖 1999 教育部跨世纪优秀人才 2000 国务院特殊津贴 2002 教育部骨干教师 2005 华东师范大学终身教授 2008 上海市优秀博士论文奖(杭超;黄国翔指导) 2011 上海市优秀博士论文奖(文文;黄国翔指导) |
