[1] WONG C, ALVEY R, TURNER D et al. Electronic coherence lineshapes reveal hidden excitonic correlations in photosynthetic light harvesting[J]. Nature Chemistry, 4, 396-404(2012).

[2] BERT J, PROST E, TUTUNNIKOV I et al. Optical imaging of coherent molecular rotors[J]. Laser & Photonics Reviews, 14, 1900344(2020).

[3] HASSAN M, LUU T, MOULET A et al. Optical attosecond pulses and tracking the nonlinear response of bound electrons[J]. Nature, 530, 66-70(2016).

[4] VILLENEUVE D. Attosecond science[J]. Contemporary Physics, 59, 47-61(2018).

[5] RÖTTGER K, WANG S, RENTH F et al. A femtosecond pump-probe spectrometer for dynamics in transmissive polymer films[J]. Applied Physics B, 118, 185-193(2014).

[6] ZHANG Bin, WANG Lei, JIA Yuechen et al. Research advances of optical waveguides by light-manipulation based femtosecond laser writing(invited)[J]. Acta Photonica Sinica, 51, 0151106(2022).

[7] CHEN Tianqi, YANG Jian, JIA Tianqing. A Study on ablation quality of silicon by femtosecond laser pulse trains[J]. Acta Photonica Sinica, 50, 0650112(2021).

[8] NAKAGAWA K, IWASAKI A, OISHI Y et al. Sequentially timed all-optical mapping photography (STAMP)[J]. Nature Photonics, 8, 695-700(2014).

[9] SUZUKI T, ISA F, FUJII L et al. Sequentially timed all-optical mapping photography (STAMP) utilizing spectral filtering[J]. Optics Express, 23, 30512-30522(2015).

[10] SUZUKI T, HIDA R, YAMAGUCHI Y et al. Single-shot 25-frame burst imaging of ultrafast phase transition of Ge2Sb2Te5 with a sub-picosecond resolution[J]. Applied Physics Express, 10, 092502(2017).

[11] NEMOTO H, SUZUKI T, KANNARI F. Single-shot ultrafast burst imaging using an integral field spectroscope with a microlens array[J]. Optics Letters, 45, 5004-5007(2020).

[12] YAO Y, HE Y, QI D et al. Single-shot real-time ultrafast imaging of femtosecond laser fabrication[J]. ACS Photonics, 8, 738-744(2021).

[13] ZHU Y, ZENG X, CAI Y et al. All-optical high spatial-temporal resolution photography with raster principle at 2 trillion frames per second[J]. Optics Express, 29, 27298-27308(2021).

[14] YEOLA S, KUK D, KIM K. Single-shot ultrafast imaging via spatiotemporal division of femtosecond laser pulses[J]. Journal of the Optical Society of America B, 35, 2822-2827(2018).

[15] ZENG X, ZHENG S, CAI Y et al. High-spatial-resolution ultrafast framing imaging at 15 trillion frames per second by optical parametric amplification[J]. Advanced Photonics, 2, 056002(2020).

[16] GAO L, LIANG J, LI C et al. Single-shot compressed ultrafast photography at one hundred billion frames per second[J]. Nature, 516, 74-77(2014).

[17] WANG P, LIANG J, WANG L V. Single-shot ultrafast imaging attaining 70 trillion frames per second[J]. Nature Commounications, 11, 2091-2099(2020).

[18] WEINBERG G, KATZ O. 100,000 frames-per-second compressive imaging with a conventional rolling-shutter camera by random point-spread-function engineering[J]. Optics Express, 28, 30616-30625(2020).

[19] LIU Ailin, ZHANG Jingjin, GUO Baoping et al. Application of compressed sensing in the streak camera imaging[J]. Acta Photonica Sinica, 47, 0525001(2018).

[20] NUSS M, LI M, CHIU T et al. Time-to-space mapping of femtosecond pulses[J]. Optics Letters, 19, 664-666(1994).

[21] LIU Z, STECKMAN G, PSALTIS D. Holographic recording of fast phenomena[J]. Applied Physics Letters, 80, 731-733(2002).

[22] CENTURION M, PAISLEY D, PU Y et al. Femtosecond holography[C], 5580, 529-534(2005).

[23] HUANG H, CHENG Z, YANG Y et al. Single-shot ultrafast sequential holographic imaging with high temporal resolution and a large field of view[J]. Optics Letters, 44, 4885-4888(2019).

[24] MOON J, YOON S, LIM Y et al. Single-shot imaging of microscopic dynamic scenes at 5 THz frame rates by time and spatial frequency multiplexing[J]. Optics Express, 28, 4463-4474(2020).

[25] EHN A, BOOD J, LI Z et al. FRAME: femtosecond videography for atomic and molecular dynamics[J]. Light Science and Application, 6, e17045(2017).