姓名：杜洪川

职称：教授,博士生导师，硕士生导师

电子邮件：duhch@lzu.edu.cn

研究方向:超快光学，强激光与原子、分子和固体相互作用

主要学习、工作简历

2003年09月-2007年06月，廊坊师范学院物理与电子信息学院读学士学位

2007年09月-2013年06月，兰州大学核科学与技术学院攻读博士学位

2012年01月-2015年04月，兰州大学核科学与技术学院，讲师

2015年05月-2019年11月，兰州大学核科学与技术学院，副教授

2019年12月至今，兰州大学核科学与技术学院，教授

学术兼职：Physical Review Letters, Physical Review A/B, Physical Review Research, New Journal of Physics, Optics Express, Journal of Physics B, Optics Communications, Chinese Physics B, Chinese Physics Letters等学术期刊的审稿人。

主讲课程：普通物理（下），高等原子分子物理

获奖统计

   2011年获教育部博士研究生学术新人奖

   2012年入选兰州大学第五批优博培育项目

   2015年获兰州大学核科学与技术学院第三届青年教师讲课比赛一等奖

   2016年获兰州大学核科学与技术学院第四届青年教师讲课比赛一等奖

   2020年获Chinese Physics B优秀审稿人（2019年度）

   2025年获Ultrafast Science优秀审稿人（2024年度）

主要科研成果：项目、代表论文、著作

目前主要从事飞秒强激光与原子、分子和固体相互作用的研究，包括高次谐波的产生及其应用，阈上电离和阿秒物理等。以第一作者或通讯作者在国际权威刊物上发表SCI学术论文50多篇，其中Phys. Rev. A/B(24篇)，Opt. Express/Letters(8篇)，J. Chem. Phys.(2篇)，已被SCI引用800多次，包括Nature Photonics, Nature Communications, Nature Reviews Materials, Physical Review Letters, Physical Review X等高影响因子期刊的引用。

• 项目：

1.主持兰州大学中央高校基本科研业务费专项资金优秀青年支持计划项目《受限量子体系高次谐波产生机制的研究》（lzujbky-2023-ey08, 在研）。

2.主持国家自然科学基金面上项目《硅烯及其纳米带高次谐波产生与操控研究》(12274188,在研)。

3.主持国家自然科学基金面上项目《晶体高次谐波辐射效率与激光椭偏率的相关性研究》(11874030，已结)。

4.主持国家自然科学基金青年基金项目《基于高次谐波产生可控椭圆偏振孤立阿秒脉冲的研究》（11404153，已结）。

5.主持兰州大学中央高校基本科研业务费专项资金自由探索项目《高重复率孤立阿秒脉冲产生的研究》(lzujbky-2016-29, 已结)。

6.主持兰州大学中央高校基本科研业务费专项资金自由探索项目《椭圆偏振孤立阿秒脉冲的产生及其控制》（lzujbky-2014-10，已结）。

7.参与国家自然科学基金重点项目《基于高品质GeV电子束的核子结构研究》（11135002，已结）。 

（二）代表论文

1.第一作者或通讯作者：

[1] Shan Xue, Wenli Yang, Ping Li, Yuxuan Zhang, Pengji Ding*, Songfeng Zhao, Hongchuan Du*, and Anh-Thu Le, Coherent post-ionization dynamics of molecules based on adiabatic strong-field approximation, Physical Review A, 111, 013124 (2025).

[2] Jin Liu, Siqi song, Yongkang Han, Shengjun Yue*, and Hongchuan Du*, Ionization and recombination times of high-order harmonic generation with single-photon ionization, Optics Express, 1, 1497(2025).

[3] 张玉鹏，李金斌，于海元，张明莹，岳生俊*，杜洪川*，固体高次谐波产生：半导体布洛赫方程的进展，中国科学（物理学力学天文学）55, 214202 (2025)（特邀评述）。

[4] Yupeng Zhang, Haiyuan Yu, Mingying Zhang, M. S. Si, Shan Xue*, and Hongchuan Du*, Interlayer coupling effect in high-order harmonic generation of phosphorene/graphene heterostructure, Physical Review A 110, 063527(2024).

[5] Jianhong Chen, Haiyuan Yu, and Hongchuan Du*, Effect of atomic orbital on the retrieval of ionization time on the basis of phase-of-phase attoclock: taking F- ions as an example, Physical Review A 110, 013113 (2024).

[6] Miao Yu, Hongchuan Du*, Jia Tan, Kunlong Liu, Yueming Zhou*, and Peixiang Lu, Probing field-driven electron dynamics of gapped graphene by intensity dependent valley polarization, Physical Review A 109, 063106 (2024).

[7] Yangyang Li, Siqi Song, Yongkang Han, Shengjun Yue*, and Hongchuan Du*, Coulomb-induced emission time shift in high-order harmonic generation of H₂⁺, Optics Express 32, 18984(2024).

[8] Yupeng Zhang, Mingying Zhang, Wenli Yang, Haiyuan Yu, M. S. Si, Shan Xue*, and Hongchuan Du*, Defects of the nearest-neighbor tight-binding model in the study of solid harmonics, Physical Review A 108, 043508 (2023).

[9] Shengjun Yue, Jin Liu, Shan Xue, Hongchuan Du*, and Manfred Lein*, Observing the Coulomb shifts of ionization times in high-order harmonic generation, Physical Review A 107, 063102 (2023).

[10] Yajuan Ren, Lei Jia, Yupeng Zhang, Zhe Zhang, Shan Xue, Shengjun Yue*, and Hongchuan Du*, Orientation dependence of even-order harmonics generation in biased bilayer graphene, Physical Review A 106, 033123 (2022).

[11] Shengjun Yue, Yangyang Li, Shan Xue*, Hongchuan Du*, and Manfred Lein, Ionization and recombination times of the long trajectory in high-order harmonic generation, Physical Review A 106, 023117(2022).

[12] Shengjun Yue, Shan Xue, Hongchuan Du*, and Manfred Lein*, Revealing Coulomb time shifts in high-harmonic generation by frequency-dependent streaking, Physical Review A 105, L041103 (2022).

[13] Shan Xue, Shaohua Sun, Pengji Ding, Bitao Hu, Shengjun Yue, and Hongchuan Du, Reconstruction of the vibronic-state density matrix based on pump-probe state-resolved energy spectra, Physical Review A 105，043108 (2022).

[14] Yongkang Feng, Shaoxi Shi, Jinbin Li, Yajuan Ren, Xiao Zhang* Jianhong Chen, and Hongchuan Du*, Semiclassical analysis of ellipticity dependence of harmonic yield in graphene, Physical Review A 104, 043525 (2021). 

[15] Shan Xue, Shengjun Yue, Hongchuan Du*, Bitao Hu, and Anh-Thu Le*, Vibronic coherence and quantum beats of O₂⁺ based on laser pump-probe dissociation dynamics, Physical Review A 104, 013101 (2021).

[16] Shengjun Yue, Simon Brennecke, Hongchuan Du*, and Manfred Lein*, Probing dynamical symmetries by bicircular high-order harmonic spectroscopy beyond the Born-Oppenheimer approximation, Physical Review A 101,053438 (2020).

[17] Silin Fu, Yongkang Feng, Jinbin Li, Shengjun Yue, Xiao Zhang, Bitao Hu, and Hongchuan Du*, Recollision dynamics analysis of high-order harmonic generation in solids, Physical Review A 101, 023402 (2020).

[18] Jinbin Li, Xiao Zhang, Silin Fu, Yongkang Feng, Bitao Hu, and Hongchuan Du*, Phase invariance of the semiconductor Bloch equations, Physical Review A 100, 043404 (2019).

[19] Huiqiao Wang, Yongkang Feng, Silin Fu, Jinbin Li, Xiao Zhang, and Hongchuan Du*, Complex carrier-envelope-phase effect of solid harmonics under nonadiabatic conditions, Physical Review A 99, 023406 (2019).

[20] Xiao Zhang, Jinbin Li, Zongsheng Zhou, Shengjun Yue, Hongchuan Du*, Libin Fu, and Honggang Luo*，Ellipticity dependence transition induced by dynamical Bloch oscillations, Physical Review B 99, 014304 (2019).

[21] Jinbin Li, Silin Fu, Huiqiao Wang, Xiao Zhang, Baowei Ding, Bitao Hu, and Hongchuan Du*, Limitations of the single-active-electron approximation in quantum simulations of solid high-order harmonic generation, Physical Review A 98, 043409 (2018).

[22] Shengjun Yue, Silin Fu, Jinbin Li, Xiao Zhang, Yongkang Feng, Bitao Hu, and Hongchuan Du*, A redshift mechanism of high-order harmonics: Chang of Ionization Energy, The Journal of Chemical Physics 148, 234304 (2018).

[23] Shan Xue, Hongchuan Du*, Bitao Hu, Chii-Dong Lin, and Anh-Thu Le*, Following coherent mulichannel nuclear wave packets in pump-probe studies of O₂ with ultrashort laser pulses, Physical Review A, 97, 043409 (2018).

[24] Hongmei Wu, Shengjun Yue, Jinbin Li, Silin Fu, Bitao Hu, and Hongchuan Du*, Controlling nonadiabatic spectral redshift of high-order harmonic using two orthogonally polarized laser fields, Chinese Optics Letters, 16, 040203 (2018).

[25] Shengjun Yue, Hongchuan Du*, Hongmei Wu, Jinbin Li, Shengwei Yue, and Bitao Hu, Process of selection rules in high-order harmonic generation, Journal of atomic and molecular sciences, 5, 10-17 (2017).

[26] Shengjun Yue, Hongchuan Du*, Hongmei Wu, Jinbin Li, and Bitao Hu, Wavelength dependence of high-harmonic yield in stretched molecules, Chemical Physics, 494, 56-60 (2017).

[27] Jinbin Li, Xiao Zhang, Shengjun Yue, Hongmei Wu, Bitao Hu, and Hongchuan Du*, Enhancement of the second plateau in solid high-order harmonic spectra by the two-color fields, Optics Express, 25, 18603 (2017).

[28] Shengjun Yue, Hongchuan Du*, Hongmei Wu, Shan Xue, Jiachen Zhao, and Bitao Hu, Theoretical study of the odd-even-order harmonic generation generation for asymmetric ions in non-Born-Oppenheimer approximation, Chinese Physics B, 26, 074215 (2017).

[29] Hongchuan Du*, Jinbin Li, Huiqiao Wang, Shengjun Yue, Hongmei Wu, and Bitao Hu, Enhancing subcycle interference of photoelectron with a linearly polarized two-color field, Physics Letters A, 381, 1563 (2017).

[30] Shan Xue, Hongchuan Du*, Shengjun Yue, Hongmei Wu, and Bitao Hu, Wavelength dependence of electron localization of H₂⁺ and its isotopomers in the UV-pump-probe scheme, Chinese Physics B, 26, 058201 (2017).

[31] Hongchuan Du*, Shengjun Yue, Huiqiao Wang, Hongmei Wu, and Bitao Hu, Reexaming the high-order harmonic generation of HD molecule in non-Born-Oppenheimer approximation, The Journal of Chemical Physics, 144, 114308 (2016).

[32] Hongchuan Du*, Hongmei Wu, Huiqiao Wang, Shengjun Yue, and Bitao Hu, Theoretical scheme for simultaneously observing forward-backward photoelectron holography, Optics Letters, 41, 697-700 (2016).

[33] Hongchuan Du*, Shan Xue, Huiqiao Wang, Zhilei Zhang, and Bitao Hu, Nonadiabatic spectral redshift of high-order harmonics with the help of a VUV pulse, Physical Review A, 91, 063844 (2015).

[34] Shan Xue, Hongchuan Du,* Yue Xia, and Bitao Hu, Effects of nuclear motion on the ionization-induced terahertz radiation of H2⁺ in intense few-cycle laser pulses, Physical Review A, 92, 013420 (2015).

[35] Hongchuan Du*, Shan Xue, Huiqiao Wang, Yizhen Wen, and Bitao Hu, Generating elliptically polarized isolated attosecond pulses from the 2p0 state of He+ with a linearly polarized two-color field, Opt. Communications, 338, 422(2015).

[36] Shan Xue, Hongchuan Du,* Yue Xia, and Bitao Hu, Generation of isolated attosecond pulses in bowtie-shaped nanostructure with three-color spatially inhomogeneous fields, Chinese Physics B, 24, 054210(2015).

[37] Hongchuan Du*, Shan Xue, Huiqiao Wang, Yizhen Wen, and Bitao Hu, Wavelength scaling of high-order harmonic yield from a Rydberg atom in few-cycle pulse, J. Opt. Soc. Am. B, 31, 1621 (2014).

[38] Hongchuan Du, Yizhen Wen, Xiaoshan Wang, and Bitao Hu, Role of excited states in the elliptically polarized harmonic generation, Chinese Physics B, 23, 033202(2014).

[39] Hongchuan Du*, Yizhen Wen, Xiaoshan Wang, and Bitao Hu, Intense supercontinuum generation exceeding 300eV using a two-color field in combination with a 400-nm few-cycle control pulse, Optics Express, 21, 21337 (2013).

[40] Hongchuan Du, Laoyong Luo, Xiaoshan Wang, and Bitao Hu, Isolated attosecond pulse generation combining propagation effects and a modulated chirped polarization gating technique, SCIENCE CHINA Physics, Mechanics & Astronomy, 56, 888-895 (2013).

[41] Hongchuan Du, Laoyong Luo, Xiaoshan Wang, and Bitao Hu, Attosecond ionization control for broadband supercontinuum generation using a weak 400-nm few-cycle controlling pulse, Optics Express, 20, 27226 (2012).

[42] Hongchuan Du, Laoyong Luo, Xiaoshan Wang, and Bitao Hu, Generating isolated elliptically polarized attosecond pulses from oriented CO gas medium using linearly polarized driving pulses, Physical Review A, 86, 013846 (2012).

[43] Hongchuan Du, Laoyong Luo, Xiaoshan Wang, and Bitao Hu, Isolated attosecond pulse generation from pre-excited medium with a chirped and chirped-free two-color field, Optics Express, 20, 9713 (2012).

[44] Hongchuan Du, Xiaoshan Wang, and Bitao Hu, Broadband isolated attosecond pulse generation in a two-color laser field combined with an orthogonally polarized laser pulse, SCIENCE CHINA Physics, Mechanics & Astronomy, 55, 1-6(2012).

[45] Hongchuan Du, and Bitao Hu, Propagation effects of isolated attosecond pulse generation with a multicycle chirped and chirped-free two-color field, Physical Review A, 84, 023817 (2011).

[46] Hongchuan Du, Xiaoshan Wang, and Bitao Hu, Broadband water window supercontinuum generation with a ω+3ω/2 multicycle two-colour pulse, Chinese Physics B, 20, 084206 (2011)

[47] Hongchuan Du, Huiqiao Wang, and Bitao Hu, Supercontinuous high harmonic generation from asymmetric molecules in the presence of a terahertz field, Chinese Physics B, 20, 044207 (2011).

[48] Hongchuan Du, and Bitao Hu, Broadband supercontinuum generation method combining mid-infrared chirped-pulse modulation and generalized polarization gating, Optics Express, 18, 25958 (2010).

[49] Hongchuan Du, Huiqiao Wang and Bitao Hu, Isolated short attosecond pulse generated using a two-color laser and a high-order pulse, Physical Review A, 81, 063813 (2010).

[50] Hongchuan Du, Huiqiao Wang, Zuoye. Liu, Shaohua Sun, Lu Li, Linlin Ma, and Bitao Hu, Interaction of intense laser pulses with hydrogen atomic clusters, Chinese Physics B, 19, 035202 (2010).

[51] Hongchuan Du, Pengjia Zhu, Shaohua Sun, Zuoye. Liu, Lu Li, Linlin Ma, and Bitao Hu, Dynamics simulation on the interaction of intense laser pulses with atomic clusters, Chinese Physics B, 18, 2426 (2009).

2. 部分其他作者论文：

[52] Laoyong Luo, Hongchuan Du, and Bitao Hu, High-order harmonic generation with a two-color laser pulse, Chinese Physics B, 21, 033202 (2012).

[53] Xiaoshan Wang, Hongchuan Du, and Bitao Hu, Electron acceleration in vacuum with two overlapping linearly polarized laser pulses, Laser and Particle Beams, 30, 421-425 (2012).

[54] Xiaoshan Wang, Hongchuan Du, Laoyong Luo, and Bitao Hu, Significant discrepancy between the ionization time for parallel and anti-parallel electron emission in sequential double ionization, Chinese Physics B, 22, 093201 (2013).

研究组成员：

副教授：薛山，岳生俊

在读博士研究生：

2018级：李金斌（2017年获国家奖学金, 2020年国家奖学金，2017年三好研究生）

2020级：张玉鹏（2020年获国家奖学金）

2021级：张哲

2022级：于海元

2023级：李萍

2024级：张明莹

在读硕士研究生：

2022级：杨文理， 刘进

2023级：韩永康，宋思琦

2024级：胡凌岳，李晓飞，钟若峰

出站博士后：薛山，岳生俊

已毕业学生：

博士研究生

2015级：薛山（与胡碧涛老师合带, 美国堪萨斯州立大学C.-D. Lin组联培）（2015年获国家奖学金）

2017级：岳生俊（2016年获国家奖学金，2016，2017年三好研究生）Leibniz Universität Hannover的M. Lein课题组联培

硕士研究生：

2015级：吴红梅（2016年获国家奖学金，2016年三好研究生，2018年优秀毕业生）

2017级：伏思霖（2020年优秀毕业生）

2018级：冯永康 (2021年甘肃省优秀毕业生)

2019级：师少玺

2020级：任亚娟

2021级：李阳阳