Zeng Heping, Professor at East China Normal University. In 2000, he was appointed as Distinguished Professor of MOE. In 2006, he receivedoutstanding Youth FundfromNational Natural Science Foundation of China (NSFC). He has led several major research projects, including NSFC Innovative Research Group on "Precision Molecular Spectroscopy and Precision Measurement",MOE distinguishedInnovative Research Team, Major Scientific Instrument Development Projectfromthe Ministry of Science& Technology, and National Key Research and Development Program. In recognition of his significant contributionson elucidating ultrafast processes in strong-field molecules and sustained technological advancements in high-power fiber ultrafast lasers and infrared single-photon detection, he was elected as a Fellow of The Optical Society (OSA) in 2016. He has also been awarded as "Outstanding Scientist" under Chongqing Municipality's Talent Program, Shanghai's "Role Model in Character, Teaching, and Scholarship", and "Sabendong Applied Physics Award" fromtheChinese Physical Society.

Professor Zeng has long been engaged in precision spectroscopy and quantum detection. His major research achievements include:experimental and theoretical elucidation of the fundamentalmechanismsunderlying ultrafast laser mode-lockingbuildup anddynamiccontrol, resolving the long-standing question on "how mode-locking is established";technique innovation to realizefemtosecond optical frequency combswith robustlong-term stability under complicated environment disturbance, world-leading high-power optical frequency combs up to hundred watts, and high-precision optical comb spectrometers, as well as the extension to terahertz optical frequency combs and comb-based terahertz spectrometers;technology breakthrough on single-photon detection with innovative sub-saturation avalanche mode, and infrared single-photon upconversion detection and imaging with precise control in time and frequency domain, addressing challengesofquantum detection with room-temperature semiconductor devices andin themid- and far-infrared range.

Personal Homepagehttps://faculty.ecnu.edu.cn/_s29/chp2/main.psp

Representative Publications

1.Wen Zhang, Kun Huang, Xu Wang, Ben Sun, Jianan Fang, Yijing Li, and Heping Zeng,

“Mid-Infrared Single-Photon Computational Temporal Ghost Imaging

Laser & Photonics Reviews 19, 2402180 (2025).

2.Qin Ruiyang, Kun Huang, Min Peng, Jianan Fang, Ben Sun, Zhengru Guo, and Heping Zeng,

High-Speed Mid-Infrared Imaging via Nonlinear Multiplexed Detection”

Laser & Photonics Reviews 19, 2500308 (2025).

3.Guibin Liu, Xuhong Ma, Kang Zhou, Binbin Liu, Lulu Zheng, Xianglong Bi, Shumin Wu, Yanming Lu, Ziping Li, Wenjian Wan, Zhenzhen Zhang, Junsong Peng, Ya Zhang, Heping Zeng, and Hua Li,

Farey tree locking of terahertz semiconductor laser frequency combs”

Light: Science & Applications 14, 147 (2025).

4.Kang Zhou, Binbin Liu, Wenjian Wan, Ziping Li, Shumin Wu, Xuhong Ma, Guibin Liu, Yanming Lu, Xianglong Bi, Lulu Zheng, Zhenzhen Zhang, Heping Zeng, and, Hua Li,

Microwave Injection Induced Broadband Dual-Comb Operation in Terahertz Quantum Cascade Lasers with a Stacked Active Region”

ACS Photonics 12, 747 (2025).

5.Xiuqi Wu, Junsong Peng, Bo Yuan, Sonia Boscolo, Christophe Finot, and Heping Zeng,

“Unveiling the complexity of Arnold’s tongues in a breathing-soliton laser

Science Advances 11(12), eads3660 (2025).

6.Zhengru Guo, Jiangdong Liu, Tingting Liu, Tianjun Yao, Qiang Hao, Edgar Kaksis, and Heping Zeng,

“High-power high-energy Yb-doped CaGdAlO4 regenerative amplifier with approximately 130 fs pulses

High Power Laser Science and Engineering 13, 1-16 (2024).

7.Tingting Zheng, Zhuohang Wei, Kun Huang, Mengyao Yu, Jianan Fang, Zhaoyang Wen, Jixi Zhang, and Heping Zeng,

Mid-infrared Fourier ptychographic upconversion imaging”

Optica 11(12), 1716-1724 (2024).

8.Zhuohang Wei, Kun Huang, Jianan Fang, and Heping Zeng,

Mid-infrared edge-enhanced imaging via angle-selective nonlinear filtering”

Optics Letters 49(22), 6373-6376 (2024).

9.Tingting Yu, Jianan Fang, Kun Huang, andHeping Zeng,

Widely tunable mid-infrared fiber-feedback optical parametric oscillator

Photonics Research 12, 2123 (2024).

10.Huiyu Kang, Anran Zhou, Ying Zhang, Xiuqi Wu, Bo Yuan, Junsong Peng, Christophe Finot, Sonia Boscolo, and Heping Zeng,

Observation of Optical Chaotic Solitons and Modulated Subharmonic Route to Chaos in Mode-Locked Laser”

Physical Review Letters 133(26), 263801 (2024).

11.Ben Sun, Kun Huang, Huijie Ma, Jianan Fang, Tingting Zheng, Ruiyang Qin, Yongyuan Chu, Hairun Guo, Yan Liang, andHeping Zeng,

“Mid-Infrared Single-Photon Compressive Spectroscopy

Laser & Photonics Reviews 2401099 (2024).

12.Shuhong Jiang, Kun Huang, Tingting Yu, Jianan Fang, Ben Sun, Yan Liang, Qiang Hao, E. Wu, Ming Yan, andHeping Zeng,

High-resolution mid-infrared single-photon upconversion ranging”

Photonics Research 12, 1294 (2024).

13.Xiaohan Liu, Kun Huang, Wen Zhang, Ben Sun, Jianan Fang, Yan Liang, and Heping Zeng,

Highly sensitive mid-infrared upconversion detection based on external-cavity pump enhancement”

Advanced Photonics Nexus 3(4), 046002 (2024).

14.Jianan Fang, Kun Huang, Ruiyang Qin, Yan Liang, E. Wu, Ming Yan, andHeping Zeng,

Wide-field mid-infrared hyperspectral imaging beyond video rate”

Nature Communications 15, 1811 (2024).

15.Ben Sun, Kun Huang, Huijie Ma, Jianan Fang, Tingting Zheng, Yongyuan Chu, Hairun Guo, Yan Liang, E. Wu, Ming Yan, andHeping Zeng,

Single-Photon Time-Stretch Infrared Spectroscopy”

Laser & Photonics Reviews 18, 2301272 (2024).

16.Fangfang Li, Mengyun Hu, Yu Qiao, Shupeng Xu, Enlai Wan,Heping Zeng,

Enhanced plasma grating-induced breakdown spectroscopy for sensitive detection of heavy metal in solution”

Spectrochimica Acta Part B: Atomic Spectroscopy 220, 107019 (2024).

17.Fangfang Li, Mengyun Hu, Yu Qiao, Shupeng Xu, Enlai Wan,Heping Zeng,

Filaments Induced Breakdown Spectroscopy with Enhanced Excitations from Plasma Gratings”

Journal of Analytical Atomic Spectrometry 39, 1102-1109 (2024).

18.Yiran Zhao, Ziping Li, Xuhong Ma, Kang Zhou, Wen Guan, Chenjie Wang, Shumin Wu, Han Liu, Wenjian Wan, J. C. Cao, Ya Zhang,Heping Zeng, and Hua Li,

Stabilized Terahertz Quantum Cascade Laser Dual-Comb Sources with a Hybrid Locking”

ACS Photonics 11, 520 (2024).

19.Ying Zhang, Xiuqi Wu, Junsong Peng, andHeping Zeng,

On the universality of fractal breathers in mode-locked fibre lasers”

Optics Communications 547, 129845 (2023).

20.Xiuqi Wu, Junsong Peng, Ying Zhang, andHeping Zeng,

“智能锁模光纤激光器的原理与研究进展”

Chinese Journal of Lasers 50(11), 1101006 (2023).

21.Ziping Li, Xuhong Ma, Kang Zhou, Binbin Liu, Chenjie Wang, Xiaoyu Liao, Wen Guan, Shumin Wu, Han Liu, Zhenzhen Zhang, J. C. Cao, Min Li, Ming Yan,Heping Zeng, and Hua Li,

Terahertz Semiconductor Dual-Comb Sources with Relative Offset Frequency Cancellation”

Laser & Photonics Reviews 17, 2200418 (2023).

22.Xinyi Ren, Jin Pan, Ming Yan, Jiteng Sheng, Cheng Yang, Qiankun Zhang, Hui Ma, Zhaoyang Wen, Kun Huang, Haibin Wu, andHeping Zeng,

Dual-comb optomechanical spectroscopy”

Nature Communications 14, 5037 (2023).

23.Mengyun Hu, Shuai Yuan, Junyi Nan, Yuzhi Cao, Junyu Chen, andHeping Zeng,

Filamentation-induced volume plasma grating: dynamics, possibilities, and advantages”

Laser & Photonics Reviews 19(6), 202300310 (2023).

24.Tianjian Lv, Bing Han, Ming Yan, Zhaoyang Wen, Kun Huang, Kangwen Yang, andHeping Zeng,

Ultrahigh-Speed Coherent Anti-Stokes Raman Spectroscopy with a Hybrid Dual-Comb Source”

ACS Photonics 10(8), 2964-2971 (2023).

25.Zhaoyang Wen, Bo Peng, Ming Yan, Tingting Zheng, Qi Wen, Tingting Liu, Xinyi Ren, Kun Huang, andHeping Zeng,

Broadband Up-Conversion Mid-Infrared Time-Stretch Spectroscopy”

Laser & Photonics Reviews 18(1), 2300630 (2023).

26.Tingting Liu, Xuling Shen, Xinyi Ren, Zhaoyang Wen, Ming Yan,Heping Zeng,

Decomposition Products Detection of Sulfur Hexafluoride Based on Frequency Comb Spectroscopy”

Spectroscopy and Spectral Analysis 43, 927-932 (2023).

27.Jianan Fang, Kun Huang, E. Wu, Ming Yan, andHeping Zeng,

Mid-infrared single-photon 3D imaging”

Light: Science & Applications 12(1), 144 (2023).

28.Xiuqi Wu, Ying Zhang, Junsong Peng, Sonia Boscolo, Christophe Finot, andHeping Zeng,

Control of spectral extreme events in ultrafast fiber lasers by a genetic algorithm”

Laser & Photonics Reviews 17(1), 202200470 (2023).

29.Xinyi Ren, Ming Yan, Zhaoyang Wen, Hui Ma, Ran Li, Kun Huang, andHeping Zeng,

Dual-comb quartz-enhanced photoacoustic spectroscopy”

Photoacoustics 28, 100403 (2022).

30.Tingting Zheng, Kun Huang, Ben Sun, Jianan Fang, Yongyuan Chu, Hairun Guo, E. Wu, Ming Yan, andHeping Zeng,

High-speed mid-infrared single-photon upconversion spectrometer”

Laser & Photonics Reviews 17(6), 202300149 (2023).

31.Yinqi Wang, Kun Huang, Jianan Fang, Ming Yan, E. Wu, andHeping Zeng,

Mid-infrared single-pixel imaging at the single-photon level”

Nature Communications 14, 1073 (2023).

32.Mengyun Hu, Shupeng Xu,Shuai Yuan,Heping Zeng,

Breakdown Spectroscopy Induced by Nonlinear Interactions of Femtosecond Laser Filaments and Multidimensional Plasma Gratings”

Ultrafast Science 3, 0013(2023).

33.Xiuqi Wu, Junsong Peng, Sonia Boscolo, Christophe Finot, andHeping Zeng,

Synchronization, Desynchronization, and Intermediate Regime of Breathing Solitons and Soliton Molecules in a Laser Cavity”

Physical Review Letters 131(26), 263802 (2023).

34.Mengyun Hu, Junyi Nan, Shuai Yuan,Heping Zeng,

Volume plasma grating by noncollinear interaction of femtosecond filament arrays”

Optics Express 31(7), 11239-11248 (2023).

35.Mengyun Hu, Fangfang Li, Shengcheng Shi, Yu Qiao, Jinman Ge, Xiaojun Li, Heping Zeng,

Detection of trace metals in water by filament-and plasma-grating-induced breakdown spectroscopy”

Advanced Photonics Nexus 2(1), 016008 (2023).

36.Mengyun Hu, Jiawei Shen, Yuzhi Cao, Shuai Yuan, Heping Zeng,

Generation of 48 fs, 1 GHz Fundamentally Mode-Locked Pulses Directly from an Yb-doped Solid-State Fiber Laser”

Photonics 10(2), 192 (2023).

37.Xiuqi Wu, Ying Zhang, Junsong Peng, Sonia Boscolo, Christophe Finot, andHeping Zeng,

Farey tree and devil’s staircase of frequency-locked breathers in ultrafast lasers”

Nature Communications 13, 5784 (2022).

38.Mengyun Hu, Shencheng Shi, Min Yan, E. Wu, andHeping Zeng,

Femtosecond laser-induced breakdown spectroscopy by multidimensional plasma grating”

Journal of Analytical Atomic Spectrometry 37, 841 (2022).

39.Kun Huang, Jianan Fang, Ming Yan, E. Wu, andHeping Zeng,

Wide-field mid-infrared single-photon upconversion imaging”

Nature Communications. 13, 1077 (2022).

40.Ao Zhang, Jijun Feng, Jingci Yan, Mengyun Hu, Ling Zhang,Heping Zeng,

Laser reshaping of gold nanoparticles for highly sensitive SERS detection of ciprofloxacin”

Applied Surface Science 583(18): 152543 (2022).

41.Guang Feng, Mengyun Hu, Botao Wu, Shengcheng Shi, Shuai Yuan, Yanan Li,Heping Zeng,

Hydrogenated Amorphous Titania with Engineered Surface Oxygen Vacancy for Efficient Formaldehyde and Dye Removals under Visible-Light Irradiation”

Nanomaterials 12(5), 742 (2022).

42.Kun Huang andHeping Zeng,

Special Issue: State-of-the-Art Nanophotonic and Optical Nanomaterials in China”

Nanomaterials 12, 2270 (2022).

43.Jianan Fang, Yinqi Wang, E. Wu, Ming Yan, Kun Huang, andHeping Zeng,

Single-Photon Infrared Imaging with a Silicon Camera Based on Long-Wavelength Pumping Two-Photon Absorption”

IEEE Journal of Selected Topics in Quantum Electronics 28, 3801107 (2022).

44.Ying Zhang, Chunbo Zhao, Xiuqi Wu, Yansong Meng, Jinman Ge, Xiaojun Li, Junsong Peng, andHeping Zeng,

Retrieving Internal Phase Dynamics of Soliton Molecules in the Normal Dispersion Regime”

IEEE Photonics Technology Letters 34(11), 583-586 (2022).

45.Xiuqi Wu, Junsong Peng, Sonia Boscolo, Ying Zhang, Christophe Finot, andHeping Zeng,

Intelligent Breathing Soliton Generation in Ultrafast Fiber Lasers”

Laser & Photonics Reviews 16(2), 2100191 (2022).

46.Xiaoyu Liao, Ziping Li, Kang Zhou, Wen Guan, Yiran Zhao, Chenjie Wang, Wenjian Wan, Sijia Yang, Zhenzhen Zhang, Chang Wang, J. C. Cao,Heping Zeng, and Hua Li,

Broadband Terahertz Quantum Cascade Laser Dual-Comb Sources under Off-Resonant Microwave Injection”

Advanced Photonics Research 3, 2100361 (2022).

47.Ran Li, Xinyi Ren, Bing Han, Ming Yan, Kun Huang, Yan Liang, Jinman Ge, andHeping Zeng,

Ultra-rapid dual-comb ranging with an extended non-ambiguity range”

Optics Letters 47, 5309-5312 (2022).

48.Xiaoyue Wang, Ming Yan, Junyi Nan, Weiwei Liu, Shuai Yuan, Kun Huang andHeping Zeng,

Experimental study on counter-propagating filaments in air”

Optics Continuum 1(7), 1628-1636 (2022).

49.Xiaoyue Wang, Junyi Nan, Jiayun Xue, Weiwei Liu, Ming Yan, Shuai Yuan, Kun Huang, andHeping Zeng,

Filament-induced nonlinear hyperspectral fluorescence imaging”

Optics and Lasers in Engineering 156, 107109 (2022).

50.Tingting Liu, Ming Yan, Zhengru Guo, andHeping Zeng,

Mechanisms of dual-wavelength dissipative soliton mode-locking in net-normal dispersion fiber lasers”

Results in Physics 36, 105464 (2022).

51.Tingting Yu, Shuhong Jiang, Jianan Fang, Tingting Liu, Xiuqi Wu, Ming Yan, Kun Huang, andHeping Zeng,

Passive repetition-rate stabilization for a mode-locked fiber laser by electro-optic modulation”

Optics Letters 47(5), 1178-1181 (2022).

52.Yu Xia, Min Li,Zheng Liu, Dikai Liu, Songtao Bai, Mingyang He, Xuling Shen, Kangwen Yang, Shuai Yuan, Ming Yan, Kun Huang, andHeping Zeng,

A narrow linewidth terahertz dual-comb spectrometer with an all-fiber adaptive clock and a real-time feedback loop”

Optics & Laser Technology 162, 109314 (2022).

53.Yu Xia, Min Li, Aifeng Wang, Xiaodan Tang, Mingyang He, Haihui Lv, Ling Zhang, Shuai Yuan, Xiaoyuan Zhou, andHeping Zeng,

Highly efficient terahertz emission from layered ZrTe5 crystal with strong anisotropy and high in-plane carrier mobility”

Journal of Luminescence 241, 118487 (2021).

54.Yinqi Wang, Jianan Fang, Tingting Zheng, Yan Liang, Qiang Hao, E Wu, Ming Yan, Kun Huang, andHeping Zeng,

Mid-Infrared Single-Photon Edge Enhanced Imaging Based on Nonlinear Vortex Filtering”

Laser & Photonics Reviews 15(10), 2100189 (2021).

55.Jianan Fang, Zhengru Guo, Ming Yan, Kun Huang, andHeping Zeng,

High-power mid-infrared difference-frequency generation based on synchronous pulse induction”

Infrared and Laser Engineering 50(8), 20210314 (2021).

56.Guang Feng, Mengyun Hu, Shuai Yuan,Heping Zeng,

Hydrogenated Amorphous TiO2−x and Its High Visible Light Photoactivity”

Nanomaterials 11(11), 2801 (2021).

57.Kang Zhou, Junyi Nan, Jiabin Shen, Ziping Li, J. C. Cao, Zhitang Song, Min Zhu, Boqu He, Ming Yan,Heping Zeng, and Hua Li,

Phase Change of Ge2Sb2Te5 under Terahertz laser Illumination”

APL Materials 9, 101113 (2021).

58.Xiuqi Wu, Junsong Peng, Sonia Boscolo, Ying Zhang, Christophe Finot, andHeping Zeng,

Intelligent Breathing Soliton Generation in Ultrafast Fiber Lasers”

Laser & Photonics Reviews 16(1), 202100191 (2021).

59.Junsong Peng, Zi-Han Zhao, Sonia Boscolo, Christophe Finot, Srikanth Sugavanam, Dmitry V. Churkin, andHePing Zeng,

Breather molecular complexes in a passively mode-locked fiber laser”

Laser & Photonics Reviews 15(7), 2000132 (2021).

60.Kun Huang, Yinqi Wang, Jianan Fang, Huaixi Chen, Minghang Xu, Qiang Hao, Ming Yan, andHeping Zeng,

Highly efficient difference-frequency generation for mid-infrared pulses by passively synchronous seeding”

High Power Laser Science and Engineering 9(1), 010000e4 (2021).

61.Tingting Yu, Jianan Fang, Qiang Hao, Kangwen Yang, Ming Yan, Kun Huang, andHeping Zeng,

High-precision passive stabilization of repetition rate for a mode-locked fiber laser based on optical pulse injection”

Optics Express 29, 20930-20940 (2021).

62.Yinqi Wang, Xiaoyue Wang, Junsong Peng, Ming Yan, Kun Huang, andHeping Zeng,

Experimental observation of transient mode-locking in the buildup stage of a soliton fiber laser”

Chinese Optics Letters 19, 071401 (2021).

63.Kun Huang, Yinqi Wang, Jianan Fang, Weiyan Kang, Ying Sun, Yan Liang, Qiang Hao, Ming Yan, andHeping Zeng,

Mid-infrared photon counting and resolving via efficient frequency upconversion”

Photonics Research 9, 259-265 (2021).

64.Tingting Liu, Ming Yan, Xuling Shen, and Heping Zeng,

Realization of carrier envelope phase control in an erbium-doped all-fiber comb via an intracavity electrical polarization controller”

Optics Letters 46(16), 4041-4044 (2021).

65.Xinyi Ren, Bo Xu, Qilai Fei, Yan Liang, Jinman Ge, Xiaoyue Wang, Kun Huang, Ming Yan, andHeping Zeng,

Single-photon counting laser ranging with optical frequency combs”

IEEE Photonics Technology Letters 33(1), 27-30 (2021).

66.Heping Zeng, and Junsong Peng,

Time-Varying Dynamics of Mode-Locked Fiber Lasers”

Acta Optica Sinica 41(1), 0114005 (2021).

67.Junsong Peng, Mariia Sorokina, andHeping Zeng,

Spectral Correlations in Laser Instabilities Beyond Stable Mode Locking”

Journal of Lightwave Technology 39(20), 6579-6584 (2021).

68.Yanwei Huang, Yu Qiao, Yangyang Li, Jiayang He, andHeping Zeng,

Zn-Doped calcium copper Titanate synthesized via rapid laser sintering of Sol-Gel derived precursors”

Nanomaterials 10(6), 1163 (2020).

69.Yuan Nie, Shuai Yuan, Yinsheng Du, Ming Yan, Jin Wang, Qingshan Zhang, Hui Xu, Min Li, and Heping Zeng,

Colorful light channel for femtosecond laser filamentation in nanoparticle colloidal solutions”

AIP Advances 10(6), 065010 (2020).

70.Jiayang He, Yanwei Huang, Mengyun Hu, Mengci Jiang, Yu Qiao, Shuang Li,Heping Zeng,

Thermal barrier materials of Yb2O3-ZrO2 system synthesized by laser excitation”

Materials Research Express 7(5), 055201 (2020)

71.Jiayang He, Yanwei Huang, Guang Feng, Si Shen, Ming Yan andHeping Zeng,

Rapid laser reactive sintering synthesis of colossal dielectric CCTO ceramics”

Applied Sciences 10(10), 3510 (2020).

72.Mengyun Hu, Junsong Peng, Sheng Niu,Heping Zeng,

Plasma-grating-induced breakdown spectroscopy”

Advanced Photonics 2(6): 065001 (2020).

73.Hanmei Fu, Qiang Hao, Hang Gong, Peng Luo, andHeping Zeng,

Environmentally stable 1. 56-μm femtosecond laser system with discontinuous selectable repetition rate”

IEEE Photonics Journal 12(3), 1-7 (2020).

74.Kangwen Yang, Yue Shen, Jianpeng Ao, Shikai Zheng, Qiang Hao, Kun Huang, Minbiao Ji, andHeping Zeng,

Passively synchronized mode-locked fiber lasers for coherent anti-Stokes Raman imaging”

Optics Express 28(9), 13721-13730 (2020).

75.Min Li, Zhenyu Li, Junyi Nan, Yu Xia, Mingyang He, Feng Wang, Wenhui Lu, Shuai Yuan, andHeping Zeng,

THz generation from water wedge excited by dual-color pulse”

Chinese Optics Letters18(7), 073201 (2020).

76.Xinyi Ren, Hu Dai, Detian Li, Kun Huang, Mengyun Hu, Tianjian Lv, Ming Yan, andHeping Zeng,

Mid-infrared electro-optic dual-comb spectroscopy with feedforward frequency stepping”

Optics Letters 45(3), 776-779 (2020).

77.Jianan Fang, Yinqi Wang, Ming Yan, E Wu, Kun Huang, andHeping Zeng,

Highly sensitive detection of infrared photons by nondegenerate two-photon absorption under midinfrared pumping”

Phys. Rev. Applied. 14, 064035 (2020).

78.Hui Xu, Shuai Yuan, Zhengru Guo, Qingshan Zhang, Yanying Ma, Qiang Hao, Kun Huang, Min Li, Yuan Nie andHeping Zeng,

Femtosecond red and near-infrared lasers due to cascaded-Raman-assisted four-wave mixing in a nonlinear Yb-Doped fiber amplifier”

Applied Sciences 10(2): 669 (2020).

79.Hua Li, Ziping Li, Wenjian Wan, Kang Zhou, Xiaoyu Liao, Sijia Yang, Chenjie Wang, J. C. Cao, and Heping Zeng,

Toward compact and real-time terahertz dual-comb spectroscopy employing a self-detection scheme”

ACS Photonics7(1), 49-56 (2020).

80.Kangwen Yang, Hai Li, Hang Gong, Xuling Shen, Qiang Hao, Ming Yan, Kun Huang, andHeping Zeng,

Temperature measurement based on adaptive dual-comb absorption spectral detection”

Chinese Optics Letters 18(5), 051401 (2020).

81.Weiyan Kang, Bowen Li, Yan Liang, Qiang Hao, Ming Yan, Kun Huang andHeping Zeng,

Coincidence-pumping upconversion detector based on passively synchronized fiber laser system”

IEEE Photonics Technology Letters32(4), 184-187 (2020).

82.Feng Zhang, Guang Feng, Mengyun Hu, Yanwei Huang, andHeping Zeng,

Liquid-plasma hydrogenated synthesis of gray Titania with engineered surface defects and superior photocatalytic activity”

Nanomaterials 10(2), 342 (2020).

83.Yinqi Wang, Xinyi Ren, Kun Huang, Ming Yan, and Heping Zeng,

Frequency comb interference spectroscopy using a fiber laser comb and a multi-colour laser”

Laser Physics 30(5), 055702 (2020).

84.Kang Lin, Xinyan Jia, Zuqing Yu, Feng He, Junyang Ma, Hui Li, Xiaochun Gong, Qiying Song, Qinying Ji, Wenbin Zhang, Hanxiao Li, Peifen Lu,Heping Zeng, Jing Chen, Jian Wu,

Comparison study of strong-field ionization of molecules and atoms by bicircular two-color femtosecond laser pulses”

Physical Review Letters119, 203202 (2017).

85.Xiaochun Gong, Qiying Song, Qinying Ji, Kang Lin, Haifeng Pan, Jingxin Ding,Heping Zeng,Jian Wu,

Channel-resolved above-threshold double ionization of acetylene”

Physical Review Letters 114(16), 163001 (2015).

86.K. Huang, H. Le Jeannic, J. Ruaudel, V. B. Verma, M. D. Shaw, F. Marsili, S. W. Nam, E Wu,H. Zeng, Y. -C. Jeong, R. Filip, O. Morin, J. Laurat,

Optical synthesis of large-amplitude squeezed coherent-state superpositions with minimal resources”

Physical Review Letters 115(2), 023602 (2015).

87.Liping Shi, Wenxue Li, Yongdong Wang, Xin Lu, Liang’en Ding,Heping Zeng,

Generation of high-density electrons based on plasma grating induced bragg diffraction in air”

Physical Review Letters107, 095004 (2011).

88.Cheng-Zhi Peng, Jun Zhang, Dong Yang, Wei-Bo Gao, Huai-Xin Ma, Hao Yin,He-Ping Zeng, Tao Yang, Xiang-Bin Wang, and Jian-Wei Pan,

Experimental long-distance decoy-state quantum key distribution based on polarization encoding”

Physical Review Letters 98, 010505 (2007).

89.Heping Zeng, Jian Wu, Han Xu, and Kun Wu,

Generation and weak beam control of two-dimensional multicolored arraysin a quadratic nonlinear medium”

Physical Review Letters 96, 083902 (2006).

90.Jian Wu,Heping Zeng, and Chunlei Guo,

Comparison study of atomic and molecular single ionization in the multiphoton ionization regime”

Physical Review Letters 96, 243002 (2006).

91.Heping Zeng,Jian Wu, Han Xu, Kun Wu, and E Wu,

Colored conical emission by means of second harmonic generation in a quadratically nonlinear medium”

Physical Review Letters 92, 143903 (2004).