丁鹏基(青年研究员)
一、基本情况
丁鹏基,男,1988年4月出生于甘肃省甘谷县,威尼斯wns8885556中国青年研究员,博士生导师
通讯地址:甘肃省兰州市城关区威尼斯wns8885556中国二分部现物楼111室
电子邮件:dingpj@lzu.edu.cn
二、学习和工作经历
2019/05 – 至今, 威尼斯wns8885556中国,青年研究员
2019/03 – 2020/01, 瑞典隆德大学物理学院燃烧物理系,研究员
2017/03 - 2019/02, 瑞典隆德大学物理学院燃烧物理系,博士后
2016/10 - 2016/12, 法国巴黎-萨克雷大学/巴黎综合理工学院, 应用光学研究所,博士后
2013/10 - 2016/09, 法国巴黎-萨克雷大学/巴黎综合理工学院,应用光学研究所,博士
2010/09 - 2013/09, 威尼斯wns8885556中国,威尼斯wns8885556中国,硕博连读
2006/09 - 2010/06, 威尼斯wns8885556中国,威尼斯wns8885556中国,本科
三、研究方向
主要从事超快非线性光学效应以及先进光学诊断技术方面的研究:
(1)气体介质中的超快非线性光学效应
研究超快激光脉冲与物质相互作用中的非线性效应一直是光学领域的前沿和热点,其中飞秒CPA技术的发明和利用飞秒激光产生阿秒脉冲研究分布获得了2018年和2023年诺贝尔物理学奖。研究组主要关注以下几个课题:a)气体介质中飞秒激光脉冲诱导等离子体通道(laser filamentation)规律;b)飞秒激光脉冲诱导空气激光;c)原子分子电离和解离超快动力学过程探测。特别的是“空气激光”在大气遥感和燃烧诊断领域具有重大的潜在应用价值。原理上基于背向激射的单端口测量技术可以突破平方反比衰减律的限制,相比于传统技术将具有更高的测量精度和灵敏度以及更远的探测距离,因此开展该方向的研究对于大气遥感和燃烧诊断具有重要推动作用。
(2)应用于复杂燃烧场的先进光学诊断技术
温度、压强、流速和组分等热力学参数是研究燃烧化学反应机制的关键宏观参数,燃烧过程中化学反应动力学模型的实验验证、高效率低排放内燃机燃烧效率检测以及航空发动机燃烧室运行状态诊断等都需要利用非线性光学诊断技术对这些参数做精确的非接触式测量。目前的诊断技术主要依赖于纳秒激光,而超短脉冲激光由于其时间宽度更短、光谱宽度更宽,峰值功率更高,因此意味着着更高的激发效率,近年来基于超短脉冲激光的燃烧场光学诊断技术受到越来越多的重视。针对高温高压高湍流复杂燃烧流场中温度、压强、流速和组分等参数的精确测量,研究组主要研究开发以下4项技术:a)飞秒双光子吸收激光诱导荧光技术(fs-TPLIF);b)飞秒/纳秒反斯托克斯拉曼散射技术(hybrid fs/ns-CARS);c)飞秒激光诱导光栅散射/光谱技术(fs-LIGS);d)激光诱导炽光碳烟体积分数和粒径测量技术(LII)。
四、学术兼职
Optics Letters, Optics Express, Journal of the Optical Society of America B, Physics Review A, Combustion and Flame, Applied Physics B, Applied Spectroscopy等国际学术期刊审稿人
五、奖励
人社部高层次留学人才回国资助(2023年)
六、主要科研成果
累计在Phys. Rev. Lett., Phys. Rev. A, Opt. Lett., Proceedings of the Combustion Institute等国际学术期刊上发表SCI学术论文40余篇,发表中文期刊论文3篇,论文总计被引1000余次,h指数为16。另外参与撰写英文专著《Air Lasing》、《Progress in Ultrafast Intense Laser Science XII》2章,在国际会议发表口头报告20余次。
(一)研究项目
主持XXX横向项目,2023-09-01至2024-12-31,40万,在研
主持中国科学院合肥物质科学研究院横向项目,《激光诱导炽光碳烟浓度测量技术研究》 2023-01-01至2024-12-31,90万,在研
主持国家自然科学基金委员会青年基金项目,12004147,《面向非线性光学诊断的飞秒激光诱导光栅散射技术》,2021-01-01至2023-12-31,24万,已结题
(二)学术成果
[1]Tongxun Zhao, Pengji Ding*, Yishan Wang, Renjun Yang, Sijie Yan, Mingyang Zhuzou, Shaohua Sun, Zuoye Liu*, and Bitao Hu, ”Deep learning assisted pressure measurements using femtosecond laser-induced grating scattering technique,” J. Phys. D: Appl. Phys. 57, 155201 (2024).
[2]Yuxuan Zhang, Yitan Gao, Hongbin Lei, Zoumingyang Zhu, Bitao Hu, Kun Zhao, Zengxiu Zhao, Pengji Ding*, and Zuoye Liu*, “Free-space competition between gain-swept superradiance and spontaneous emission from N2+ in a femtosecond filament,” Phys. Rev. A 109, 013105 (2024).
[3]Zoumingyang Zhu, Shan Xue*, Yupeng Zhang, Yuxuan Zhang, Renjun Yang, Shaohua Sun, Zuoye Liu, Pengji Ding*, and Bitao Hu, “Influence of polarization ellipticity on N2+ lasing in a strong laser field,” Phys. Rev. A 108, 013111 (2023).
[4]郑悦, 张宇璇, 孙少华, 丁鹏基, 胡碧涛, 刘作业. “飞秒激光脉冲对N2分子非绝热准直的调控,” 物理学报,2023, 72(6): 064203-1-064203-7. doi: 10.7498/aps.72.20222112.
[5]Quanjun Wang, Pengji Ding*, Shane G. Wilkins, Michail Athanasakis-Kaklamanakis, Yuxuan Zhang, Zuoye Liu*, and Bitao Hu, “Theoretical treatment on externally-seeded superradiance from N2+ in femtosecond laser filamentation in low-pressure nitrogen,” Front. Phys. 10, 1090346 (2023).
[6]Yulan Wu, Pengji Ding*, Yue Zheng, Tongxun Zhao, Zoumingyang Zhu, Xiaoliang Liu, Shaohua Sun, Jijin Wang, Zuoye Liu*, and Bitao Hu, “Characterization of femtosecond laser-induced grating scattering of a continuous-wave laser light in air,” Opt. Express 30(10), 17038-17053 (2022).
[7]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,” Phys. Rev. A 105, 043108 (2022).
[8]Yulan Wu, Mingyang Zhuzou, Tongxun Zhao, Pengji Ding*, Shaohua Sun, Jijin Wang, Zuoye Liu, and Bitao Hu*, “Gas-phase pressure measurement using femtosecond laser-induced grating scattering technique,” Opt. Lett. 47(7), 1859-1862 (2022).
[9]Pengji Ding*, Maria Ruchkina, Zexuan Wang, Mingyang Zhuzou, Shan Xue*, and Joakim Bood, “Signature of femtosecond laser-induced superfluorescence from atomic hydrogen,” Phys. Rev. A 105, 013702 (2022).
[10]Pengji Ding*, Christian Brackmann, Maria Ruchkina, Mingyang Zhuzou, Luojia Wang*, Luqi Yuan, Yi Liu, Bitao Hu*, and Joakim Bood, “Femtosecond laser-induced quantum-beat superfluorescence of atomic oxygen in a flame,” Phys. Rev. A 104, 033517 (2021).
[11]Yuxuan Zhang, Zoumingyang Zhu, Yue Zheng, Yulan Wu, Yu He, Zuwen Cui, Bitao Hu, Pengji Ding*, and Jingjie Ding*, “Optical gain in the P branch of N2+ lasing by polarization-modulated laser pulses,” Phys. Rev. A 103, 063110 (2021).
[12]Maria Ruchkina*, Dina Hot, Pengji Ding, Ali Hosseinnia, Per-Erik Bengtsson, Zhongshan Li, Joakim Bood, and Anna-Lena Sahlberg, “Laser-induced thermal grating spectroscopy based on femtosecond laser multi-photon absorption,” Sci. Rep. 11, 1-13 (2021).
[13]Pengji Ding*, Maria Ruchkina, Davide Del Cont-Bernard, Andreas Ehn*, Deanna A Lacoste, and Joakim Bood, “Temporal dynamics of femtosecond-TALIF of atomic hydrogen and oxygen in a nanosecond repetitively pulsed discharge-assisted methane–air flame,” J. Phys. D: Appl. Phys. 54, 275201 (2021).
[14]Quanjun Wang, Rao Chen, Yuxuan Zhang, Xiaozhen Wang, Chunlin Sun, Pengji Ding, Zuoye Liu*, and Bitao Hu*, “Populations of B2Σu+ and X2Σg+ electronic states of molecular nitrogen ions in air determined by fluorescence measurement,” Phys. Rev. A 103, 033117 (2021).
[15]Ali Hosseinnia*, Maria Ruchkina, Pengji Ding, Joakim Bood, and Per-Erik Bengtsson, “Single-shot fs/ns rotational CARS for temporally and spectrally resolved gas-phase diagnostics,” Proc. Combust Inst. 38, 1843-1850 (2021).
[16]Davide Del Cont-Bernard, Maria Ruchkina, Pengji Ding, Joakim Bood, Andreas Ehn, and Deanna A Lacoste*, “Femtosecond two-photon laser-induced fluorescence imaging of atomic hydrogen in a laminar methane–air flame assisted by nanosecond repetitively pulsed discharges,” Plasma Sources Sci. Technol. 29, 065011 (2020).
[17]Xiang Zhang, Rostyslav Danylo, Zhengquan Fan, Pengji Ding, Chenhao Kou, Qingqing Liang, Aurélien Houard, Vladimir Tikhonchuk, André Mysyrowicz, and Yi Liu*, “Backward lasing of singly ionized nitrogen ions pumped by femtosecond laser pulses,” Appl. Phys. B 126, 1-7 (2020).
[18]Ali Hosseinnia, Maria Ruchkina, Pengji Ding, Per-Erik Bengtsson, Joakim Bood, “Simultaneous temporally and spectrally resolved Raman coherences with single-shot fs/ns rotational CARS”, Opt. Lett. 45, 308-311 (2020).
[19]Pengji Ding*, Maria Ruchkina, Davide Del Cont-Bernard, Andreas Ehn, Deanna A. Lacoste, and Joakim Bood, "Detection of atomic oxygen in a plasma-assisted flame via a backward lasing technique," Opt. Lett. 44, 5477-5480 (2019).
[20]Maria Ruchkina, Pengji Ding, Marcus Aldén, Joakim Bood, and Christian Brackmann*, "Two-photon-excited fluorescence of CO: experiments and modeling," Opt. Express 27, 25656-25669 (2019).
[21]Pengji Ding*, Maria Ruchkina, Yi Liu, Marcus Alden, and Joakim Bood, "Gain mechanism of femtosecond two-photon-excited lasing effect in atomic hydrogen," Opt. Lett. 44, 2374-2377 (2019).
[22]Maria Ruchkina, Pengji Ding*, Andreas Ehn, Marcus Aldén, and Joakim Bood, “Single-shot, spatially-resolved stand-off detection of atomic hydrogen via backward lasing in flames,” Proceedings of the Combustion Institute, 37(2), 1281-1288 (2019).
[23]Pengji Ding*, Maria Ruchkina, Yi Liu, Marcus Aldén, and Joakim Bood, "Femtosecond two-photon-excited backward lasing of atomic hydrogen in a flame," Opt. Lett. 43, 1183-1186 (2018).
[24]范政权,张翔,丁鹏基,Aurelien Houard, Andre Mysyrowicz,刘一,“飞秒激光泵浦的背向空气激光的研究进展”, 现代科学仪器,2018年2月第1期。
[25]Yi Liu, Pengji Ding, Neven Ibrakovic, Samuel N. Bengtsson, Shihua Chen, Rostyslav Danylo, Emma R. Simpson, Esben W. Larsen, Xiang Zhang, Zhengquan Fan, Aurélien Houard, Johan Mauritsson, Anne L’Huillier, Cord L. Arnold, Songlin Zhuang, Vladimir Tikhonchuk, and André Mysyrowicz*, “Unexpected Sensitivity of Nitrogen Ions Superradiant Emission on Pump Laser Wavelength and Duration,” Phys. Rev. Lett. 119(20), 203205 (2017).
[26]Pengji Ding, Juan Carlos Escudero, Aurelien Houard, Alberto Sanchis, Javier Vera, Sergio Vicens, Yi Liu, and Eduardo Oliva*, "Nonadiabaticity of cavity-free neutral nitrogen lasing," Phys. Rev. A. 96, 033810 (2017).
[27]Pengji Ding, Eduardo Oliva, Aurelien Houard, Andre Mysyrowicz, and Yi Liu*, "Lasing dynamics of neutral nitrogen molecules in femtosecond filaments," Phys. Rev. A. 94, 043824 (2016).
[28]JingJie Ding, PengJi Ding, ZuoYe Liu*, BiTao Hu, “Energy exchange process among multiple filamentary femtosecond laser beams in air,” SCIENCE CHINA Physics, Mechanics & Astronomy 59, 633001 (2016).
[29]Yi Liu*, Pengji Ding, Guillaume Lambert, Aurelien Houard, Vladimir Tikhonchuk, and André Mysyrowicz, "Recollision-Induced Superradiance of Ionized Nitrogen Molecules," Phys. Rev. Lett. 115(13), 133203 (2015).
[30]Sergey Mitryukovskiy, Yi Liu*, Pengji Ding, Aurélien Houard, Arnaud Couairon, and André Mysyrowicz, “Plasma Luminescence from Femtosecond Filaments in Air: Evidence for Impact Excitation with Circularly Polarized Light Pulses,” Phys. Rev. Lett. 114(6), 063003 (2015).
[31]Cao Yu, Liu Xiao-Liang, Xian Wen-Duo, Sun Shao-Hua, Sun Ming-Ze, Ding Peng-Ji, Shi Yan-Chao, Liu Zuo-Ye, Hu Bi-Tao*, “Characterization of Femtosecond Laser-Induced Plasma under Low Pressure in Argon,” Chin. Phys. Lett. 32(3), 035203 (2015).
[32]Pengji Ding, Sergey Mitryukovskiy, Aurélien Houard, Eduardo Oliva, Arnaud Couairon, André Mysyrowicz, and Yi Liu*, “Backward Lasing of Air plasma pumped by Circularly polarized femtosecond pulses for the saKe of remote sensing (BLACK),” Optics Express 22(24), 029964 (2014).
[33]Sergey Mitryukovskiy, Yi Liu, Pengji Ding, Aurélien Houard, and André Mysyrowicz, “Backward stimulated radiation from filaments in nitrogen gas and air pumped by circularly polarized 800 nm femtosecond laser pulses,” Opt. Express 22, 12750-12759 (2014).
[34]Guillaume Point, Yi Liu, Yohann Brelet, Sergey Mitryukovskiy, Pengji Ding, Aurélien Houard, and André Mysyrowicz, “Lasing of ambient air with microjoule pulse energy pumped by a multi-terawatt infrared femtosecond laser,” Opt. Lett. 39, 1725-1728 (2014).
[35]Pengji Ding, Zeqing Guo, Xiaoshan Wang, Yu Cao, Mingze Sun, Peixi Zhao, Yanchao Shi, Shaohua Sun, Xiaoliang Liu, Bitao Hu*, “Energy exchange between two noncollinear filament-forming laser pulses in air,” Opt. Express 21, 27631-27640 (2013).
[36]Xiaoliang Liu, Shaohua Sun, Xiaoshan Wang, Zuoye Liu, Qingcao Liu, Pengji Ding, Zeqin Guo, Bitao Hu*, “Effect of laser pulse energy on orthogonal double femtosecond pulse laser-induced breakdown spectroscopy,” Opt. Express 21, A704-A713 (2013).
[37]Liu Zuo-Ye, Sun Shao-Hua, Shi Yan-Chao, Ding Peng-Ji, Liu Qing-Cao, Liu Xiao-Liang, Ding Bao-Wei, Hu Bi-Tao*, “Spectral modulation and supercontinuum generation assisted by infrared femtosecond plasma grating,” Chin. Phys. B 22, 075204 (2013).
[38]Bitao Hu, Zuoye Liu, Lu Li, Shaohua Sun, Pengji Ding, Xiaoliang Liu, Qingcao Liu, Zeqing Guo, and Baowei Ding*, “Fluorescence spectroscopy of the plasma induced by multifilament interaction in air,” Laser Phys. Lett. 10, 075401 (2013).
[39]Pengji Ding, Zuoye Liu, Yanchao Shi, Shaohua Sun, Xiaoliang Liu, Xiaoshan Wang, Zeqing Guo, Qingcao Liu, Yuhong Li, and Bitao Hu*, “Spectral characterization of third-order harmonic generation assisted by a two-dimensional plasma grating in air,” Phys. Rev. A 87, 043828 (2013).
[40]Sun Shao-Hua, Liu Xiao-Liang, Liu Zuo-Ye, Wang Xiao-Shan, Ding Peng-Ji, Liu Qing-Cao, Guo Ze-Qin, Hu Bi-Tao*, “The Angular Distribution of Optical Emission Spectroscopy from a Femtosecond Laser Filament in Air,” Chin. Phys. Lett. 30, 045202 (2013).
[41]史彦超,刘作业,赵培茜,郭泽钦,丁鹏基,刘情操,胡碧涛,“一种调节飞秒激光脉冲时空重合的新方法”, 激光技术,第37卷,第3期,385 (2013)。
[42]Qingcao Liu, Meng Liu, Tongpu Yu, Pengji Ding, Zuoye Liu, Shaohua Sun, Xiaoliang Liu, Xing Lu, Zeqin Guo, Bitao Hu*, “Effect of target composition on proton acceleration in ultraintense laser-thin foil interaction,” Phys. Plasmas 19, 9 (2012).
[43]Pengji Ding, Qingcao Liu, Xiaoliang Liu, Shaohua Sun, Zuoye Liu, Bitao Hu, and Yuhong Li*, “Hydrodynamic simulation of silicon ablation by ultrashort laser irradiation,” Nucl. Instrum. Methods Phys. Res. B 286, 40-44 (2012).
[44]Zuoye Liu, Pengji Ding, Yanchao Shi, Xin Lu, Qingcao Liu, Shaohua Sun, Xiaoliang Liu, Baowei Ding, and Bitao Hu*, “Enhancement of third-order harmonic generation by interaction of two IR femtosecond filaments,” Laser Phys. Lett. 9, 649 (2012).
[45]Xing Lu, Qingcao Liu, Zuoye Liu, Shaohua Sun, Pengji Ding, Baowei Ding, Bitao Hu*, “Measurement of nonlinear refractive index coefficient using emission spectrum of filament induced by gigawatt-femtosecond pulse in BK7 glass,” Appl. Optics 51, 2045-2050 (2012).
[46]Zuoye Liu, Pengji Ding, Yanchao Shi, Xing Lu, Shaohua Sun, Xiaoliang Liu, Qingchao Liu, Baowei Ding, Bitao Hu*, “Control of third harmonic generation by plasma grating generated by two noncollinear IR femtosecond filaments,” Opt. Express 20, 8837-8847 (2012).
(三)论著章节
1.Yi Liu, Pengji Ding, Aurélien Houard, and André Mysyrowicz, “The Role of Electron Collisions in Lasing in Neutral and Singly Ionized Molecular Nitrogen”, Air Lasing, 01/2018: pages 45-74; ISBN: 978-3-319-65219-1, DOI:10.1007/978-3-319-65220-7_3
2.Yi Liu, Sergey Mitryukovskiy, Pengji Ding, Guillaume Point, Yohann Brelet, Aurélien Houard, Arnaud Couairon, and André Mysyrowicz, “Backward Lasing of Femtosecond Plasma Filaments”, Progress in Ultrafast Intense Laser Science XII, 10/2015: pages 89-103; Springer., DOI:10.1007/978-3-319-23657-5_5
(四)学术会议报告
1.The 11th International Symposium on Ultrafast Phenomena and THz Waves (ISUPTW 2023), Sep. 8-11, 2023, Qingdao, China (Invited)
2.N2+ Air Lasing Workshop, May 2-5, 2023, Palaiseau, France (邀请报告)
3.第二十五届全国激光学术会议,2022年10月28-30日,中国天津 (邀请报告)
4.International Conference on Laser Filamentation (COFIL) 2022, July 11-15, 2022, Heraklion, Greece (online)
5.第十三届全国激光科学技术青年学术交流会, 专题:原子分子中的超快现象,2021.9.10-13, 上海,中国 (邀请报告)
6.The 10th International Symposium on Ultrafast Phenomena and Terahertz Waves (ISUPTW 2021), June 16-19, 2021, Chengdu, China
7.第十六届全国激光技术与光电子学学术会议,特色专题:空气激光的遥感探测应用,2021.6.3-6,上海,中国(邀请报告)
8.Laser Diagnostics in Energy and Combustion Science, Gordon Research Conference, June 23-28, 2019, Les Diablerets, Switzerland (邀请报告)
9.18th European Conference On Non-Linear Optical Spectroscopy, April 7-10, 2019, Rouen, France
10.37th International Symposium on Combustion, July 29 - August 03, 2018, Dublin, Ireland
11.7th International Conference on Laser Filamentation, June 25-30, 2018, Geneva, Switzerland
12.Conference on Lasers and Electro-Optics, May 5-10, 2018, San Jose, USA
13.Nordic Flame Days conference, October 10-11, 2017, Stockholm, Sweden
14.Conference on Lasers and Electro-Optics, June 5-10, 2016, San Jose, USA
15.International Conference on Laser Filamentation, September 5-9, 2016, Quebec, Canada
16.Conference on Lasers and Electro-Optics – European Quantum Electronics Conference (CLEO/Europe 2015), June 21-25, 2015, Munich, Germany
研究小组成员
在读博士生:
2022级:朱邹明阳
2023级:陈琳慧
在读硕士生:
2022级:王一珊
2022级:颜思杰
2023级:陈车明
2023级:郝桢腆
已毕业:
吴玉兰(博士,2023年毕业)
赵通讯(硕士,2023年毕业)
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