臧华平

发布时间:2020年02月26日浏览次数:

一、基本信息

臧华平,博士,副教授,河南省重大科技基础设施超短超强激光平台束线负责人;从事超短超强激光辐射源的产生和应用、新型光场调控器件和金刚石光电探测器件的设计和研制等方向,主持国家级课题多项,包括国自然青年基金1项和面上基金项目1项;省部级项目多项,作为主要参与人参与国家重大科学仪器设备专项1项。

目前指导研究生多名,学生在校期间荣获“郑州大学三好研究生”、“郑州大学优秀应届毕业研究生”、“研究生国家奖学金”等称号,发表一区top文章在内高质量SCI论文50余篇,欢迎光学和电子信息专业的同学报考硕士研究生和博士研究生,将为每一位成员营造良好的发展机会,鼓励和支持课题组同学与中国工程物理研究院、中国科学研究院等合作单位开展联合培养研究

联系地址:郑大物理学院C楼221办公室,邮箱:zanghuaping@zzu.edu.cn

二、教育背景

(1) 2011-9至2013-6  美国中佛罗里达大学,联合培养博士

(2) 2009-3至2011-8  中国工程物理研究院,联合培养博士

(3) 2008-9至2013-6  四川大学,博士

(4) 2004-9至2008-6  河南师范大学,物理学,学士

三、工作履历

(1) 2019-5至现在  郑州大学,物理学院,副教授

(2) 2015-1至2019-5  郑州大学,物理工程学院,副教授

(3) 2013-9至2014-12  郑州大学,物理工程学院,讲师

四、研究领域

(1) 无谐波单色X射线光栅/波带片的设计和研制;针对如何有效抑制激光等离子体诊断软X光谱测量中高级衍射,课题组设计并研制了无谐波二元光学元器件,相关研究成果作为单级衍射光栅研制项目的组成部分先后获得军队科技进步二等奖、2013年度国家技术发明二等奖。

(2) 新型光场调控技术及应用研究;课题组长期致力于X射线光涡旋的产生和应用研究,首次提出各向异性涡旋场,相关研究成果被Nature Photonics作为Highlights报道

(3) 高通量高次谐波的产生技术研究;为了满足原子分子尺度超快动力学研究对激光脉冲时间分辨和光通量的需求,在前期与美国三大光学中心之一中佛罗里达大学常增虎教授的国际合作中,获得了脉冲宽度为230as,能量为100nJ的单个孤立阿秒脉冲,同年课题组刷新纪录获得了67as超短阿秒脉冲。

五、科研项目

(1) 国家自然科学基金面上基金项目,国家级,2022-01至2025-12,主持,在研

(2) 国家自然科学基金青年基金项目,国家级,2015-01至2017-12,主持,结项

(3) 等离子体物理国防科技重点实验室基金,国家级,2021-01至2022-12,主持,在研

(4) 等离子体物理国防科技重点实验室基金自主科研项目,国家级,2020-01至2020-12,主持,结项

(5) 等离子体物理国防科技重点实验室基金自主科研项目,国家级,2021-01至2023-12,第一参与人,在研

(6) 等离子体物理国防科技重点实验室横向课题,主持,结项

(7) 河南省科技厅攻关项目,省部级,2020-01至2021-12,主持,在研

(8) 河南省博士后基金项目,省部级,2014-02至2015-12,主持,结项

(9) 河南省科技厅攻关项目,省部级,2017-01至2019-12,主持,结项

(10) 河南省高等学校重点研究计划,省部级,2019-01至2020-12,主持,结项

(11) 国家重大科学仪器设备专项,国家级,2012-10至2017-10,参与人,结项

(12) 河南省科技厅攻关项目,省部级,2016-01至2017-12,参与人,结项

六、代表性论文

1. Zang Huaping, Wang Mengguang, Wei Lai, Fan Quanping*, Wang Chuanke, Liu Xiaomin*, Cao Leifeng*, Liang Erjun. “Focusing properties of spiral zone plate based on m-bonacci sequence”. Optics Communications, 2021, 483:126638.

2. Zheng Chenglong , Li Jie, Wang Guocui, Wang Silei, Li Jitao, Zhao Hongliang, Zang Huaping, Zhang Yan, Zhang Yating, and Yao Jianquan*. “Fine manipulation of terahertz waves via all-silicon metasurfaces with an independent amplitude and phase. Nanoscale, 2021, 13, 5809-5816.

3. Zheng Chenglong, Li Jie, Wang Silei, Li Jitao, Li Mengyao, Zhao Hongliang, Hao Xuanruo, Zang Huaping, Zhang Yating, and Yao Jianquan*. “Optically tunable all-silicon chiral metasurface in terahertz band. Applied Physics Letters, 2021, 118, 051101.

4. Zheng Chenglong, Li Jie, Li Jitao, Yue Zhen, Wang Silei, Li Mengyao, Zhao Hongliang, Hao Xuanruo, Zang Huaping, Zhang Yating, and Yao Jianquan*. “All-silicon chiral metasurfaces and wavefront shaping assisted by interference. SCIENCE CHINA Physics, Mechanics & Astronomy, 2021, 64(11), 114212.

5. Yang Jinghan, Zhong Yinghui, Zheng Chenglong, Ding Shuangling, Zang Huaping*, Liang Erjun, Cao Leifeng. “Dual-type fractal spiral zone plate for generating sequence of square optical vortices”. Journal of the Optical Society of America A, 2019, 36(5):893-897.

6. Cheng Shubo, Xia Tian, Liu Mengsi, Zheng Chenglong, Zang Huaping*, Tao Shaohua*. “Composite spiral zone plate”. IEEE Photonics Journal, 2019, 11(1): 4500111.

7. Zang Huaping, Ding Shuangling, Wei Lai, Wang Chuanke, Fan Quanping*, Cao Leifeng*, “Fractal spiral zone plate with high- order harmonics suppression”. Applied Optics, 2019, 58(31):8680-8686.

8. Zang Huaping, Zheng Chenglong, Ji Ziwen, Fan Quanping, Wei Lai, Li Yongjie, Mu Kaijun, Chen Shu, Wang Chuanke, Zhu Xiaoli, Xie Changqing, Cao Leifeng*, Liang Erjun*. “Characterization of the focusing performance of spiral zone plates with fractal structure”. Chinese Physics B, 2019, 28(6):064201.

9. Ji Ziwen, Zang Huaping*, Fan Chunzhen, Wang Junqiao, Zheng Chenglong, Wei Lai, Wang Chuanke, Cao Leifeng.“Fractal spiral zone plates”. Journal of the Optical Society of America A, 2018, 35:726-731.

10. Zheng Chenglong, Zang Huaping*, Du Yanli, Tian Yongzhi, Ji Ziwen, Zhang Jing, Fan Quanping, Wang Chuanke, Cao Leifeng, Liang Erjun. “Realization of arbitrarily long focus-depth optical vortices with spiral area-varying zone plates”. Optics Communications, 2018, 414:128-133.

11. Zheng Chenglong, Su Shilei, Zang Huaping*, Ji Ziwen, Tian Yongzhi, Chen Shu, Mu Kaijun, Wei Lai, Fan Quanping, Wang Chuanke, Zhu Xiaoli, Xie Changqing, Cao Leifeng, Liang Erjun. “Characterization of the focusing performance of axial line-focused spiral zone plates”. Applied Optics, 2018, 57(14):3802-3807.

12. Zang Huaping*, Zheng Chenglong, Fan Quanping, Wang Chuanke, Wei Lai*, Cao Leifeng, Wang Xiangru, Liang Erjun. “Generation of x-ray vortex with ultra-long depth of focus using axial line-focused spiral zone plates”. Chinese Optics Letters, 2018, 16(8):080501.

13. Zang Huaping*, Zheng Chenglong, Ji Ziwen, Liu Xiaomin, Tian Yongzhi, Wei Lai, Fan Quanping, Wang Xiangru*, Cao Leifeng, Liang Erjun. “Multiple optical vortices generated by azimuthal fractal spiral zone plates based on liquid crystal spatial light modulator”. Optik, 2018, 175:344-350.

14. Su Shilei*, Tian Yongzhi, Shen H. Z*, Zang Huaping*, Liang Erjun, Zhang Shou.“Applications of the modified Rydberg antiblockade regime with simultaneous driving”. Physics Review A, 2017, 96(4):042335.

15. Fan Quanping, Wang Shaoyi, Yang Zuhua, Wei Lai, Hu Feng, Zang Huaping, Zhang Qiangqiang, Wang Chuanke, Jiang Gang*, Cao Leifeng*. “The realization of long focal depth with a linear varied-area zone plate”. Journal of Modern Optics, 2017, 64(3):244-250.

16. Zhong Yinghui, Zang Huaping, Wang Haili, Sun Shuxiang, Li Kaikai, Ding Peng, Jin Zhi*. “T-gate fabrication of InP-based HEMTs using PMGI/ZEP520A/PMGI/ZEP520A stacked resist”. Chinese Journal of Electronics, 2016, 25(3):448-45.

17. Zhong Yinghui, Zang Huaping, Sun Shuxiang, Wang Haili, Li Kaikai, Li Xinjian, Ding Peng, Jin Zhi*.“Comparison of Single-Step and Two-Step EBL T-gates fabrication techniques for InP-based HEMT”. Chinese Journal of Electronics, 2016, 25(2):199-202.

18. Feng Shiquan*, Zang Huaping, Wang Yongqiang, Cheng Xinlu, Yue Jinsheng. “Ab initio investigation of photoinduced non-thermal phase transition in β-cristobalite”. Chinese Physics B, 2016, 25(01):016701.

19. Wen Xiaohui, Sun Tieyu, Zhang Wei-Bing, Lam Chi-Hang, Zhang Linxi*, Zang Huaping. “Helix-like structure formation of a semi-flexible chain confined in a cylinder channel. Chinese Physics B, 2016, 25(9):324-331.

20. Wang Junqiao*, Mu Kaijun, Ma Fengying, Zang Huaping, Fan Chunzhen, He Jinna, Liang Erjun, Ding Pei.“Optical refractive nanosensor with planar resonators metamaterial”. Optics Communications, 2015, 338:399-405.

21. Li Xiaodong*, Zang Huaping, Wang Juntao, Wang Junfei, Zhang Hong*. “Design of tetraphenyl silsesquioxane based covalent -organic frameworks as hydrogen storage materials”. Journal of Materials Chemistry A, 2014, 2(43): 18554-18561.

22. Wu Yi, Cunningham Eric, Zang Huaping, Li Jie, Chini Mike, Wang Xiaowei, Wang Yang, Zhao Kun, and Chang Zenghu*.“Generation of High-Flux Attosecond XUV Continuum with a 15fs, 10 TW Driving Laser”. Applied Physics Letters, 2013, 102:201104.

23. Fan Wei, Wei Lai, Zang Huaping, Cao Leifeng *, Zhu Bin, Zhu Xiaoli, Xie Changqing, Gao Yulin, Zhao Zongqing, and Gu Yuqiu. “Realizing a Gabor zone plate with quasi-random distributed hexagon dots”. Optics Express, 2013, 21(2): 1473-1478.

24. Zang Huaping, Wang Chuanke, Gao Yulin, Zhou Weimin, Kuang Longyu, Wei Lai, Fan Wei, Zhang Wenhai, Zhao Zongqing, Cao Leifeng *, Gu Yuqiu, Zhang Baohan, Jiang Gang *, Zhu Xiaoli, Xie Changqing, Zhao Yidong, Cui Mingqi. “Elimination of higher-order diffraction using zigzag transmission grating in soft x-ray region”. Applied Physics Letters, 2012, 100:111904.

25. Wei Lai, Kuang Longyu, Fan Wei, Zang Huaping, Cao Leifeng*, Gu Yuqiu, and Wang Xiaofang. “Annulus-sector-element coded Gabor zone plate at the x-ray wavelength”. Optics Express, 2011, 19(22):21419-21424.

26. Zang Huaping, Li Wenfeng, Linghu Rongfeng, Cheng Xinlu, Yang Xiangdong*. “The influence of isotope substitution of neon atom on the integral cross sections of rotational excitation in Ne-Na2 collisions”. Chinese Physics B, 2011, 20(2): 020301.

27. Hu Feng, Jiang Gang*, Yang Jiamin, Wang Chuanke, Zhao Xuefeng, Zang Huaping.“Multi-configuration Dirac-Hartree-Fock (MCDHF) calculations for Zn-like sequence from Z=48 to 54”. Chinese Physics B, 2011, 20(6):063103.


 

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