职称：教授，博士生导师/硕士生导师

主要研究方向：带电粒子束与微结构相互作用; 重离子谱学与QED效应；离子束检测和辐照效应研究

招生专业：粒子物理与原子核物理、能源动力

邮箱：zhanghq@lzu.edu.cn

办公室：二分部201

一、主要学历或学术经历

1998年9月-2002年6月：兰州大学核科学与技术学院专业，获原子核物理及技术专业学士学位。

2002年9月-2006年6月：兰州大学核科学与技术学院专业，博士。

2006年9月-2010年9月：斯德哥尔摩大学，物理系原子物理部，博士。

2010年9月-2011年1月：斯德哥尔摩大学，物理系原子物理部，项目研究助理。

2011年3月-2014年5月，兰州大学，核科学与技术学院，副教授，硕士生导师。

2014年12月-2015年3月，法国CIMAP实验室，访问教授。

2015年9月-2015年12月， 法国CIMAP实验室，访问教授。

2016年10月-2017年1月，法国CIMAP实验室，访问教授。

2014年5月至今，兰州大学，核科学与技术学院，教授。

二、主讲课程

《离子束分析》、《c语言》

三、主要成果

主要项目：

[1]国家级项目：

1.自然科学基金青年项目：离子束在玻璃毛细管中传输的研究(2011.01-2013.12)

2.自然科学基金面上项目：纳米微结构作为荷电粒子束传输元件的研究 (2014.01-2018.12)

3.自然科学基金联合重点项目：相对论能区高电荷态重离子碰撞谱学和QED效应的研究(2018.01-2021.12)

4.国家重点引智项目两项：日本理化所Hiroyoshi Sakurai/斯德哥尔摩Reinhold Schuch

[2]中央高校基本科研业务费专项资金一项：

离子穿越绝缘体微孔膜的理论和实验研究

[3]横向项目多项：

1.主机附属系统及加速器技术服务（2016.06-2016.12）

2.离子束流检测设备系统（2020.08-2022.02）

3.光电器件低能质子辐照试验与测试分析(2021.08-2023.12)

4.束流测量诊断系统采购(2021.08-2022.08)

5.中低能离子束探测及远程控制系统（2022.10-2025.06）

6.中低能离子束流强度二维分布测量及在束检测技术（2022.11-2024.12）

7.薄膜材料的离子束分析技术（2023.01-2024.12）

8.用于离子束流强度测量的背散射分析技术（2023.10-2025.09）

代表性论文：

[1]Role of the deposited charge in the transmission of low-energy electrons through insulating nanocapillaries.

Shuai, Ha Li, Pengfei Zhang, Wenming Jin, Bo Niu, Ben Chen, Zidong Yuan, Hua cl, Wan Cui, Ying Yao, Ke Ma, Yue Yang, Zhihu Schuch, R. Zhang, Hongqiang ,Chen, Ximeng.  

Physical Review A,2025,108(1): 012812.

[2]Ion irradiation-induced localized melting and stress distribution in superconducting materials.

Zhiwen Zhou, Juanjuan Guo, Mengtong Liu, Xuhong Fan, Pengfei Li, Zhiwen Gao*, Hongqiang Zhang*, Jizeng Wang and Youhe Zhou. 

Superconductor Science and Technology, 2025, 38(6): 065011.

 [3]Double and single K -shell-vacancy production of xenon atoms by 95–197-MeV/u Xe 54 + -ion collisions.

Song, Zhangyong Shao, Caojie Yu, Deyang Kozhedub, Yury Ma, Kun Xue, Yingli Wang, Wei Zhang, Mingwu Liu, Junliang Yang, Bian Dong, Chenzhong Zhang Hongqiang，Cai,Xiaohong.

Physical Review A, 2025, 111: 032807

[4]Plastic Inorganic van der Waals Semiconductors for Flexible X-ray Detectors.

Wang, Qiao cl, Wan Wu, You Xh, Fan Wang, Shuai Pan, Yuzhou  Khalid, Mansoor Xiao, Haiying Zhang, Hongqiang Ma, Guoliang Fu, Yongqing Hu, Ping-An.

ACS Applied Electronic Materials, 2025, 7: 1764–1774.

[5]Production and measurement of MeV proton microbeams in atmospheric environment based on glass capillary.

Wan Cheng-Liang, Pan Yu-Zhou, Zhu Li-Ping, Li Peng-Fei, Zhang Hao-Wen, Zhao Zhuo-Yan, Yuan Hua, Fan Xu-Hong, Sun Wen-Sheng, Du Zhan-Hui, Chen Qian, Cui Ying, Liao Tian-Fa, Wei Xiao-Hui, Wang Tian-Qi, Chen Xi-Meng, Li Gong-Ping, Reinhold Schuch, Zhang Hong-Qiang*.

 Acta Phys. Sin., 2024, 73(10): 104101.

[6]Precise lifetime measurement of Λ4H hypernucleus using in-flight 4He(K−,π0)Λ4H reaction

T. Akaishi, H. Asano, X. Chen, A. Clozza, C. Curceanu, R. Del Grande, C. Guaraldo, C. Han, T. Hashimoto, M. Iliescu, K. Inoue, S. Ishimoto, K. Itahashi, M. Iwasaki, Y. Ma, M. Miliucci, R. Murayama, H. Noumi, H. Ohnishi, S. Okada, H. Outa, K. Piscicchia, A. Sakaguchi, F. Sakuma, M. Sato, A. Scordo, K. Shirotori, D. Sirghi, F. Sirghi, S. Suzuki, K. Tanida, T. Toda, M. Tokuda, T. Yamaga, X. Yuan, P. Zhang, Y. Zhang, H. Zhang

Physics Letters B,Volume845,2023

[7]Stable transmission of low energy electrons in glass tube  with outer surface grounded conductively shielding.

Li Peng-Fei, Yuan Hua, Cheng Zi-Dong, Qian Li-Bing, Liu Zhong-Lin, Jin Bo, Ha Shuai, Wan Cheng-Liang, Cui Ying, Ma Yue, Yang Zhi-Hu, Lu Di, Reinhold Schuch, Li Ming, Zhang Hong-Qiang*, Chen Xi-Meng.

 Acta Phys.Sin.,2022,71(7):074101.

[8]Dynamics of low energy electrons transmitting through straight glass capillary: Tilt angle dependence.

Li Peng-Fei, Yuan Hua, Cheng Zi-Dong, Qian Li-Bing, Liu Zhong-Lin, Jin Bo, Ha Shuai, Zhang Hao-Wen, Wan Cheng-Liang, Cui Ying, Ma Yue, Yang Zhi-Hu, Lu Di, Reinhold Schuch, Li Ming, Zhang Hong-Qiang*, Chen Xi-Meng.  

Acta Phys. Sin.2022,71(8):084104.

[9]Surface nanostructures formation induced by highly charged ions: Kinetic and potential energy dependence,Nuclear Instruments and Methods in Physics Research

Pengfei Li, Hongqiang Zhang*, Long Wei, Ben Niu, Hua Yuan, Zidong Cheng, Haowen Zhang, Zhihu Yang, Yipan Guo, Yue Ma, Chengliang Wan, Ying Cui, Ming Li, Ximeng Chen

Nucl. Inst. Meth.Phys.Res.B.Volume 513,2022

[10]The role of the deposited charge in tailoring ion beams by nanocapillaries in mica.

Zhang H Q, Schuch R.

Nucl. Inst. Meth. Phys. Res. B. Volume 503. PP 62-67. 2021

[11]Transmission of low-energy Cl– ions through Al2O3 insulating nanocapillaries.

Ha Shuai, Zhang Wen-Ming, Xie Yi-Ming, Li Peng-Fei, Jin Bo, Niu Ben, Wei Long, Zhang Qi, Liu Zhong-Lin, Ma Yue, Lu Di, Wan Cheng-Liang, Cui Ying, Zhou Peng, Zhang Hong-Qiang*, Chen Xi-Meng*.

 Acta Phys. Sin., 2020, 69(9): 094101.

[12]Transport of accelerated electrons through dielectric nanochannels in PET films.

K.A. Vokhmyanina, A.S. Kubankin, L.V. Myshelovka, H. Zhang, A.A. Kaplii, V.S. Sotnikova, M.A. Zhukova .

Journal of Instrumentation. Volume 15, Issue 04. 2020

[13]Formation of Hillock on Muscovite Mica Surface Induced by Energetic Ion near Electronic Energy Loss Threshold.Jin Bo, Wei Long, Niu Ben, Zhang Qi, Li Peng-Fei, Bao Liang-Man, Lei Qian-Tao, Guan Shi-Wang, Jin Ding-Kun, Song Guang-Yin, Xie Yi-Ming, Ha Shuai, Cui Ying, Ma Yue, Zhang Hong-Qiang*, Chen Xi-Meng*.

Atomic Energy Science and Technology.Volume 53, Issue 5. PP 769-775. 2019

[14]Transmission of low-energy negative ions through insulating nanocapillaries.

Qi Zhang, Zhonglin Liu, Pengfei Li, Bo Jin, Guangyin Song, Dingkun Jin, Ben Niu, Long Wei, Shuai Ha, Yiming Xie, Yue Ma, Chengliang Wan, Ying Cui, Peng Zhou, Hongqiang Zhang*, Ximeng Chen.

Phys. Rev. A. Volume 97, Issue 4 Pt.A. PP 42704-1-042704-8. 2018 .

[15]Transmission of highly charged ions through mica nanocapillaries of rectangular cross-section.

H.Q. Zhang*, N. Akram, R. Schuch.

Nucl. Instr. and Meth. B. Volume 408. PP 61–66. 2017

[16]Transmission profiles of ions through nano-capillaries of rectangular cross-section in mica.

H.Q. Zhang*, N. Akram,C. Trautmann,R. Schuch.

Nucl. Instr. and Meth. B. Volume 406. PP421–424. 2017

[17]Evolution of the electric potential of an insulator under charged particle impact.

E. Giglio, S. Guillous, A. Cassimi, H. Q. Zhang, G. U. L. Nagy, and K. Tokesi.

Phys. Rev. A. Volume 95, Issue 3 Pt.A. PP 030702-1-030702-5. 2017

[18]Guiding and scattering of ions in transmission through mica nanocapillaries.

H. Q. Zhang*, N. Akram,  and R. Schuch.

Phys. Rev. A. Volume 94, Issue 3. PP 032704, 2016

[19]Rydberg-to-M-shell x-ray emission of hollow Xeq+ (q = 27–30) atoms or ions above metallic surfaces.

Z. Y. Song, Z. H. Yang, H. Q. Zhang, J. X. Shao, Y. Cui,Y. P. Zhang, X. A. Zhang, Y. T. Zhao, X. M. Chen, and G. Q. Xiao.

Phys. Rev. A. 91, 042707, 2015

[20]The nanostructure formation on muscovite mica surface induced by intermediate-energy ions.

P. Zhou, HQ. Zhang*, Q. Zhang, Z. Liu, S. Guan, G. Wang, C. Zhou, J. Jia, X. Lv, J. Shao, Y. Cui, L. Chen, X. Chen.Nucl. Instr. and Meth. B. Volume 307. PP 221–224. 2013

[21]Transmission of Slow Highly Charged Ions Through Ultra-thin Carbon Nano-sheets.

N. Akram, H. Q. Zhang, U. Werner, A. Beyer, R. Schuch.

New Trends in Atomic and Molecular Physics, Springer Series on Atomic, Optical, and Plasma Physics. Volume 76. PP 267-277. 2013

[22]Transmission of highly charged ions through mica nanocapillaries of rhombic cross section.

HQ. Zhang, N. Akram, I. L. Soroka, C. Trautmann and R. Schuch.

Phys. Rev. A. Volume 86, Issue 2 Pt.1. PP 022901-1-022901-8. 2012

[23]Tailoring of keV-Ion Beams by Image Charge when Transmitting through Rhombic and Rectangular Shaped Nanocapillaries.

H.-Q. Zhang, N. Akram, P. Skog, I. L. Soroka, C. Trautmann and R. Schuch.

Phys. Rev. Lett. Volume 108, Issue 19. PP 193202.1-193202.5. 2012

[24]Molybdenum L-shell x-ray production by 350-600 keV Xeq+ (q=25 to 30) ions.

H. Zhang, X. Chen, Z. Yang, J. Xu, Y. Cui, J. Shao, X. Zhang, Y. Zhao, Y. Zhang and G. Xiao .

Nucl. Instr. and Meth. B. Volume 268, Issue 10. PP 1564-1567. 2010

[25]Dynamics of guiding highly charged ions through SiO2 nanocapillaries.

H.-Q. Zhang*, P. Skog and R. Schuch.

Phys. Rev. A. Volume 82, Issue 5 Pt.A. PP 052901:1-052901:9. 2010

[26]The new Stockholm Electron Beam Ion Trap (S-EBIT).

R. Schuch, S. Tashenov, I. Orban, M. Hobein, S. Mahmood, O. Kamalou, N. Akram, A. Safdar, P. Skog, A. Solders and H. Zhang

Journal of Instrumentation. Volume 5, Issue 12. PP C12018. 2010

[27]X-ray emission from the metastable components of slow Ar16+ beam on metallic surfaces.

H. Q. Zhang, X. M. Chen, Z. Y. Liu, Z. H. Yang, J. Z. Xu, Y. Cui, X. Xu, J. X. Shao, X. A. Zhang, Y. T. Zhao, Y. P. Zhang, G. Q. Xiao

Surface Review and Letter. Volume 16. Issue 3. PP 463-467. 2009

[28]Evidence of Sequentially Formed Charge Patches Guiding Ions through Nanocapillaries.

P. Skog, HQ. Zhang, and R. Schuch.

Phys. Rev. Lett. Volume 101, Issue 22. PP 223202. 2008

[29]Interaction of Highly Charged Xeq+ (q = 26, 27, 30) Ions with Molybdenum Surface.

Liu Zhaoyuan, Zhang Hongqiang, Chen Ximeng , Yang Zhihu, Xu Jinzhang, Cui Ying, Xu Xu, Shao Jianxiong, Xiao Guoqing, Zhang Xiaoan, Zhao Yongtao and Zhang Yanping

International Journal of Modern Physics B. Volume 19, Issue 15n17. PP 2443-2451. 2005

四、学术兼职

【1】担任过美国国家自然科学基金通讯评审人；Nucl. Instr. and Meth. B, 原子核物理评论、地球物理、空间科学与技术、核技术、 核电子学与探测技术等杂志的通讯评审人。