基本信息
曾健华  男  博导  中国科学院西安光学精密机械研究所
电子邮件: zengjh@opt.ac.cn
通信地址: 西安市高新区新型工业园信息大道17号西安光机所瞬态室
邮政编码: 710119

研究领域

非线性光学与非线性(量子)物理前沿理论,研究方向涉及:原子、分子与光物理中的非线性光学原理,超冷和热原子中的非线性与量子物理

招生信息

硕士研究生可招专业为光学或光学工程,

博士研究生招生专业仅限于光学。

招生专业
070207-光学
招生方向
超快光学(飞秒和阿秒)理论
非线性原子分子光物理
量子光学和计算物理
研究兴趣和研究方向

超快光学方面:阿秒或飞秒超快现象理论,多光子过程,原子分子离化和量子控制、成像。
非线性波动力学方面:非线性动力学方程解析解和近似解析解,波色-爱因斯坦凝聚(BEC)和超冷简并气体动力学特性,自聚焦和自散焦非线性光传播和局域,孤子、涡旋子和拓扑激发结构等。
以上研究主要基于非线性光学和原子分子物理、超快光学或激光前沿物理等基础。
此外,研究方向也涉及量子光学、少体和多体物理理论,以及高维度高效率数值计算方法。

研究组文化

硕士博士是导师的产品,培养高素质研究生是导师的良心活!
产品生产过程铁律:研究生阶段每周有效工作时间要达到40小时!组会原则上是要全英文的,但鉴于学生潜力尚未挖掘殆尽,因此要求硕博连读转入博士的第一年(也就是研究生第三年)必须尝试全英文作报告!
产品出厂品质认证:博士毕业后能独立进行中英文写作和科研选题(倘若还在从事科研活动的话)!
产品质量保证承诺:研究生努力了、拼搏了,如果不能顺利毕业和找到满意的工作,是导师无能!

【求学前必先修身】报考研究生一定是怀有梦想的(无论是中国梦,还是科研梦、只想找个好工作的现实梦),古语有云:修身齐家治学是要义,切不可忘!遇事冷静淡定是其一!人品是第一学历,本科毕业证只能屈居第二学历!一定程度上,前者可以弥补后者的不足!attitude is everything,性格决定命运!

 

【让自由之风永远吹】道不同不相以谋,志不同不相为师(后面一句为曾老师所加)!思想上和行动上的自由才能换来生活的随意自由和学术的自由创造!因此,欢迎不同志向和追求或文化认同感的同学随时更换研究生指导老师!“不是一家人,不进一家门”,自己自由选择进去的就要严格遵守家风、学风、和生活作风!科研是人类智慧的最高追求,如果你在科研过程中不快乐,也许离开不是坏事,毕竟树挪死、人挪活!

 

【两条腿走路:弘扬国文,兼顾外文】中华文化,源远流长!目前国语热不是坏事,研究生要立志传承国文经典,做有内涵的中国人!国际上语言专家的共识是:任何语言都是相通的,母语都学不好的,更遑论外语了!切记任何时候都要努力学习国文和洋文,做高素质的研究生!


教育背景

2007-10--2007-12   以色列魏茨曼科学研究所   访问学者
2004-09--2010-03   中山大学理工学院,光电材料与技术国家重点实验室   光学博士
2000-09--2004-07   广东第二师范学院(原广东教育学院)物理系   本科

工作经历

2015-07~现在, 西安光学精密机械研究所, 博士研究生导师

2014-01~2014-07,美国中佛罗里达大学物理系, 访问教授

2023-01~现在, 西安光学精密机械研究所, 研究员

2013-08~2022-12, 中国科学院西安光学精密机械研究所,瞬态光学与光子技术国家重点实验室, 副研究员

2011-10~2013-07,清华大学物理系,低维量子物理国家重点实验室, 博士后

2010-04~2011-03,以色列特拉维夫大学物理电子系, 博士后

出版信息

近五年代表性论文(中科院一区+高起点新刊)

[1] Xiuye Liu, Boris A. Malomed and Jianhua Zeng*, Localized modes in nonlinear fractional systems with deep lattices. Advanced Theory and Simulations 5, 2100482 (2022).

[2] Xiuye Liu and Jianhua Zeng*, Overcoming the snaking instability and nucleation of dark solitons in nonlinear Kerr media by spatially inhomogeneous defocusing nonlinearity. Chaos, Solitons & Fractals 156, 111803 (2022).

[3] Xiuye Liu and Jianhua Zeng*, One-dimensional purely Lee-Huang-Yang fluids dominated by quantum fluctuations in two-component Bose-Einstein condensates. Chaos, Solitons & Fractals 160, 112240 (2022).

[4] Jiawei Li, Yanpeng Zhang and Jianhua Zeng*, Dark gap solitons in one-dimensional nonlinear periodic media with fourth-order dispersion. Chaos, Solitons & Fractals 157, 111950 (2022).

[5] Jiawei Li, Yanpeng Zhang and Jianhua Zeng*, 3D nonlinear localized gap modes in Bose-Einstein condensates trapped by optical lattices and space-periodic nonlinear potentials. Advanced Photonics Research 2022, 2100288 (2022).

[6] Jiawei Li, Yanpeng Zhang and Jianhua Zeng*, Matter-wave gap solitons and vortices in three-dimensional parity-time-symmetric optical lattices. iScience 25, 104026 (2022).

[7] Zhiming Chen and Jianhua Zeng*, Nonlinear localized modes in one-dimensional nanoscale dark-state optical lattices. Nanophotonics 11, 3465 (2022).

[8] Junbo Chen and Jianhua Zeng*, Dark matter-wave gap solitons of Bose-Einstein condensates trapped in optical lattices with competing cubic-quintic nonlinearities. Chaos, Solitons & Fractals 150, 111149 (2021).

[9] Liangwei Zeng and Jianhua Zeng*, Preventing critical collapse of higher-order solitons by tailoring unconventional optical diffraction and nonlinearities. Communications Physics 3, 26 (2020).

[10] Liangwei Zeng and Jianhua Zeng*, Gap-type dark localized modes in a Bose–Einstein condensate with optical lattices. Advanced Photonics 1, 046006 (2019).

 


发表论文
(1) Matter-wave gap solitons and vortices of dense Bose–Einstein condensates in Moiré optical lattices, CHAOS, SOLITONS AND FRACTALS: THE INTERDISCIPLINARY JOURNAL OF NONLINEAR SCIENCE, AND NONEQUILIBRIUM AND COMPLEX PHENOMENA, 2023, 
(2) Asymmetric localized states at a nonlinear interface of fractional systems with optical lattices, FRONTIERS IN PHYSICS, 2023, 
(3) Light gap bullets in defocusing media with optical lattices, CHAOS, SOLITONS AND FRACTALS: THE INTERDISCIPLINARY JOURNAL OF NONLINEAR SCIENCE, AND NONEQUILIBRIUM AND COMPLEX PHENOMENA, 2023, 
(4) Gap solitons in parity–time symmetric moiré optical lattices, Gap solitons in parity–time symmetric moiré optical lattices, 光子学研究:英文版, 2023, 
(5) Matter-wave gap solitons and vortices in three-dimensional parity-time-symmetric optical lattices, ISCIENCE, 2022, 
(6) Localized Modes in Nonlinear Fractional Systems with Deep Lattices, Advanced Theory and Simulations, 2022, 
(7) Dark gap solitons in one-dimensional nonlinear periodic media with fourth-order dispersion, CHAOS, SOLITONS & FRACTALS, 2022, 
(8) Overcoming the snaking instability and nucleation of dark solitons in nonlinear Kerr media by spatially inhomogeneous defocusing nonlinearity, Chaos, Solitons & Fractals, 2022, 
(9) Electromagnetically induced moiré optical lattices in a coherent atomic gas, Frontiers of Physics, 2022, 
(10) Optimal bright multimode quantum squeezing via multi-seeding energy-level cascaded four-wave mixing, OPTICS EXPRESS, 2022, 
(11) One-dimensional purely Lee-Huang-Yang fluids dominated by quantum fluctuations in two-component Bose-Einstein condensates, CHAOS SOLITONS & FRACTALS, 2022, 
(12) Nonlinear localized modes in one-dimensional nanoscale dark-state optical lattices, NANOPHOTONICS, 2022, 
(13) 3D Nonlinear Localized Gap Modes in Bose-Einstein Condensates Trapped by Optical Lattices and Space-Periodic Nonlinear Potentials, advancedphotonicsresearch, 2022, 
(14) Dark matter-wave gap solitons of Bose-Einstein condensates trapped in optical lattices with competing cubic-quintic nonlinearities, CHAOS, SOLITONS & FRACTALS, 2021, 
(15) Two-dimensional optical gap solitons and vortices in a coherent atomic ensemble loaded on optical lattices, COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 2021, 
(16) One-dimensional quantum droplets under space-periodic nonlinear management, RESULTS IN PHYSICS, 2021, 
(17) Localized gap modes of coherently trapped atoms in an optical lattice, OPTICS EXPRESS, 2021, 
(18) Dark matter-wave gap solitons of BECs trapped in optical lattices with competing cubic-quintic nonlinearities, Chaos, solitons and Fractals 150,111149, 2021, 通讯作者
(19) Dark matter-wave gap solitons in dense ultracold atoms trapped by a one-dimensional optical lattice, PHYSICAL REVIEW A, 2021, 
(20) Preventing critical collapse of higher-order solitons by tailoring unconventional optical diffraction and nonlinearities, COMMUNICATIONS PHYSICS, 2020, 
(21) Fractional quantum couplers, CHAOS SOLITONS & FRACTALS, 2020, 
(22) Modulated solitons, soliton and vortex clusters in purely nonlinear defocusing media, ANNALS OF PHYSICS, 2020, 
(23) One-dimensional localized modes of spin -orbit -coupled Bose-Einstein condensates with spatially periodic modulated atom -atom interactions: Nonlinear lattices, COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 2020, 
(24) Self-trapped spatially localized states in combined linear-nonlinear periodic potentials, Self-trapped spatially localized states in combined linear-nonlinear periodic potentials, FRONTIERS OF PHYSICS, 2020, 
(25) Fractional quantum couplers, CHAOS, SOLITONS AND FRACTALS, 2020, 
(26) 1D Solitons in Saturable Nonlinear Media with Space Fractional Derivatives, ANNALEN DER PHYSIK, 2020, 
(27) Spontaneous symmetry breaking in purely nonlinear fractional systems, CHAOS: AN INTERDISCIPLINARY JOURNAL OF NONLINEAR SCIENCE, 2020, 
(28) Purely Kerr nonlinear model admitting flat-top solitons, OPTICS LETTERS, 2019, 
(29) Asymmetric localized states in periodic potentials with a domain-wall-like Kerr nonlinearity, JOURNAL OF PHYSICS COMMUNICATIONS, 2019, 
(30) Gaussian-like and flat-top solitons of atoms with spatially modulated repulsive interactions, 2019, 
(31) One-dimensional gap solitons in quintic and cubic-quintic Fractional nonlinear Schr\"{o}dinger equations with a periodically modulated linear potential, 2019, 
(32) One-dimensional gap solitons in quintic and cubic-quintic fractional nonlinear Schrodinger equations with a periodically modulated linear potential, NONLINEAR DYNAMICS, 2019, 
(33) Gap-type dark localized modes in a Bose– Einstein condensate with optical lattices, ADVANCED PHOTONICS, 2019, 
(34) One-dimensional solitons in fractional Schrödinger equation with a spatially periodical modulated nonlinearity: Nonlinear lattice, OPTICS LETTERS, 2019, 
(35) Suppression of the critical collapse for one-dimensional solitons by saturable quintic nonlinear lattices, CHAOS, 2018, 
(36) Two-dimensional matter-wave solitons and vortices in competing cubic-quintic nonlinear lattices, Two-dimensional matter-wave solitons and vortices in competing cubic-quintic nonlinear lattices, 物理学前沿:英文版, 2018, 
(37) Two-dimensional matter-wave solitons and vortices in competing cubic-quintic nonlinear lattices, FRONTIERS OF PHYSICS, 2018, 
(38) Localized dark solitons and vortices in defocusing media with spatially inhomogeneous nonlinearity, PHYSICAL REVIEW E, 2017, 
(39) Suppressing the critical collapse of solitons by one-dimensional quintic nonlinear lattices, MATHEMATICS AND COMPUTERS IN SIMULATION, 2016, 
(40) Bright solitons from the nonpolynomial Schrodinger equation with inhomogeneous defocusing nonlinearities, PHYSICAL REVIEW E, 2013, 
(41) Two-dimensional intraband solitons in lattice potentials with local defects and self-focusing nonlinearity, JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 2013, 
(42) Two-dimensional solitons and vortices in media with incommensurate linear and nonlinear lattice potentials, PHYSICA SCRIPTA, 2012, 
(43) Stabilization of one-dimensional solitons against the critical collapse by quintic nonlinear lattices, PHYSICAL REVIEW A, 2012, 
(44) Bright solitons in defocusing media with spatial modulation of the quintic nonlinearity, PHYSICAL REVIEW E, 2012, 
(45) Two-dimensional solitons in PT linear lattice potentials, PHYSICAL REVIEW E, 2012, 
(46) Domain walls and vortices in linearly coupled systems, PHYSICAL REVIEW E, 2011, 
(47) Backward self-induced transparency in metamaterials, PHYSICAL REVIEW A, 2009, 
(48) Generation of a self-pulsed picosecond solitary wave train from a periodically amplifying Bragg structure, PHYSICAL REVIEW A, 2008, 
(49) 超短激光脉冲传输特性的量子相干操控与应用, 科学通报, 2008, 第 2 作者
(50) 第十二届基础光学与光物理讨论会论文摘要集—周期排列共振激活介质的光子晶体原理、制备、表征与光学特性研究, 量子电子学报, 2007, 第 4 作者
(51) 周期排列共振放大介质的小信号增益特性研究, Small signal gain characteristics of periodically arranged resonant amplifying media, 物理学报, 2007, 第 2 作者

科研活动

   
科研项目
( 1 ) 光晶格中玻色-爱因斯坦凝聚的隐形和完美成像, 负责人, 国家任务, 2013-01--2015-12
( 2 ) 原子和分子中阿秒瞬态吸收光谱理论研究, 负责人, 研究所自主部署, 2014-10--2016-09
( 3 ) 中科院国际创新团队项目“阿秒诊断物理与关键技术“, 参与, 中国科学院计划, 2015-01--2017-12
( 4 ) 阿秒超快光场与物质相互作用研究, 参与, 国家任务, 2017-01--2021-12
( 5 ) 宽量程电子能谱信息映射技术, 参与, 其他国际合作项目, 2016-12--2019-12
( 6 ) 中国科学院青年创新促进会2016级会员培养项目, 负责人, 中国科学院计划, 2016-01--2019-12
( 7 ) 三阶/五阶非线性光学介质和玻色-爱因斯坦凝聚中局域波的理论研究, 负责人, 国家任务, 2021-01--2024-12
( 8 ) 凝聚态物质中的超快现象与波局域(中国科学院西部青年学者项目), 负责人, 中国科学院计划, 2022-01--2024-12

合作情况

   
项目协作单位

目前与国外(美国和以色列)多个研究组保持长期稳定的合作
 

指导学生

已指导学生

石金城  博士研究生  080901-物理电子学  

曾亮维  博士研究生  070207-光学  

陈俊波  博士研究生  070207-光学  

刘修业  博士研究生  070207-光学  

李佳伟  博士研究生  070207-光学