袁华

发布者:物光学院发布时间:2021-07-22浏览次数:2590

» 姓名:袁华

» 系属:微电子科学与工程系

» 学位:博士

» 职称:讲师

» 专业:光学

» 导师类别:硕士生导师

» 电子邮箱:yuanhua@sdut.edu.cn

» 通讯地址:山东省淄博市张店区山东理工大学西校区#15

» 联系方式:0533-2780702

研究方向

1.    强场超快光学

2.    飞秒激光与原子、分子、固体的相互作用

3.    强场高次谐波辐射

4.    阿秒高次谐波光源产生及阿秒量子调控

5.    基于高次谐波光谱的原子分子超快动力学探测

教育工作经历

1.    2015.09-2020.06,华中科技大学,光学,博士研究生

2.    2020.07-至今,山东理工大学,讲师

主讲课程

《大学物理》等本科生课程

承担项目

1.    国家自然科学基金重大研究计划重点项目91950202,多色光驱动的百纳焦阿秒光源产生与应用,2020.01-2023.12400万元,参与

2.    国家重点研发计划政府间国际科技创新合作重点专项2017YFE0116600,高效率百阿秒脉冲激光研究,2019.01-2021.12265万元,参与

论文

1.  Hua Yuan, Lixin He, Stephen Maina Njoroge, Dian Wang, Renzhi Shao, Pengfei Lan, and Peixiang Lu. Generation of near-circularly polarized attosecond pulse with tunable helicity by unidirectionally rotating laser field. Annalen der Physik, 532(5): 1900570 (2020).

2.  Hua Yuan, Feng Wang, Yinfu Zhang, Renzhi Shao, and Hua Long. Near-circularly polarized isolated attosecond pulse generation from coherent superposition state by a circularly polarized   laser field. Optical and Quantum Electronics, 51(6): 177 (2019).

3.  Hua Yuan, Lixin He, Feng Wang, Baoning Wang, Xiaosong Zhu, Pengfei Lan, and Pengxiang Lu.   Tomography of asymmetric molecular orbitals with a one-color inhomogeneous field. Optics Letters,   43(4): 931-934 (2018).

4.  Hua Yuan, Fang Li, and Hua Long. Control of high-order harmonic generation with chirped  inhomogeneous fields. Journal of the Optical Society of America B, 34(11): 2390-2395 (2017).

5.  Hua Yuan, Lixin He, Feng Wang, Baoning Wang, Weiwei Liu, and Zuofei Hong. Generation of isolated attosecond pulses in a multi-cycle inhomogeneous two-color field without CEP stabilization. Optical and Quantum Electronics, 49(6): 214 (2017).

6.  Stephen Maina Njoroge, Hua Yuan*, Kinyua Dickson, Qingbin Zhang, and Pengfei Lan. Control of the polarization direction of isolated attosecond pulses using inhomogeneous two-color fields. Scientific Reports, 9: 18582 (2019).

7.  Bing Xue, Yuuki Tamaru, Yuxi Fu, Hua Yuan, Pengfei Lan, Oliver D. Mücke, Akira Suda, Katsumi Midorikawa, Eiji J. Takahashi. Fully stabilized multi-TW optical waveform synthesizer:   Towards gigawatt isolated attosecond pulses. Science Advances, 6(16): eaay2802 (2020).

8.  Bing Xue, Yuuki Tamaru, Yuxi Fu, Hua Yuan, Pengfei Lan, Oliver D. Mücke, Akira Suda, Katsumi Midorikawa, and Eiji J. Takahashi. A custom-tailored multi-TW optical electric field for gigawatt soft-x-ray isolated attosecond pulses.arXiv preprint arXiv:2104.03625 (2021).

9.  Dian Wang, Xiaosong Zhu, Hua Yuan, Pengfei Lan, and Peixiang Lu. Interference effect in high-order harmonic generation from degenerate current-carrying orbitals of polyatomic molecules. Physical Review A, 101: 023406 (2020).

10.Chunyang Zhai, Renzhi Shao, Pengfei Lan, Bincheng Wang, Yinfu Zhang, Hua Yuan, Stephen Maina Njoroge, Lixin He, and Peixiang Lu. Ellipticity control of high-order harmonic generation with nearly orthogonal two-color laser fields. Physical Review A, 101(5): 053407 (2020).

11.Yuxi Fu, Hua Yuan, Katsumi Midorikawa, Pengfei Lan, and Eiji J Takahashi. Towards GW-scale isolated attosecond pulse far beyond carbon K-edge driven by mid-infrared waveform synthesizer. Applied Sciences, 8(12): 2451 (2018).

12.Yuxi Fu, Hua Yuan, Pengfei Lan, Katsumi Midorikawa, and Eiji J Takahashi. High-energy 50-attosecond ‘water window’ X-ray driven by a high-energy infrared waveform synthesizer. Frontiers in Optics. Optical Society of America, p. JW3A. 130 (2018).

13.Baoning Wang, Lixin He, Hua Yuan, Qingbin Zhang, Pengfei Lan, and Peixiang Lu. Carrier-envelope phase-dependent molecular high-order harmonic generation from H2+ in a multi-cycle regime. Optics Express, 26(25): 33440-33452 (2018).

14.Baoning Wang, Lixin He, Feng Wang, Hua Yuan, Xiaosong Zhu, Pengfei Lan, and Peixiang Lu. Resonance-modulated wavelength scaling of high-order-harmonic generation from H2+. Physical Review A, 97: 013417 (2018).

15.Baoning Wang, Lixin He, Feng Wang, Hua Yuan, Xiaosong Zhu, Pengfei Lan, and Peixiang Lu. Resonance enhanced high-order harmonic generation in H2+ by two sequential laser pulses. Optics Express, 25(15): 17777-17787 (2017).