[1] A Couairon, A Mysyrowicz. Femtosecond filamentation in transparent media. Phys Rep, 441, 47-189(2007).

[2] O Balachninaitė, J Skruibis, A Matijošius et al. Temporal and spatial properties of plasma induced by infrared femtosecond laser pulses in air. Plasma Sources Sci Technol, 31, 045001(2022).

[3] XL Liu, X Lu, X Liu et al. Tightly focused femtosecond laser pulse in air: from filamentation to breakdown. Opt Express, 18, 26007-26017(2010).

[4] MK Bhuyan, A Soleilhac, M Somayaji et al. High fidelity visualization of multiscale dynamics of laser-induced bubbles in liquids containing gold nanoparticles. Sci Rep, 8, 9665(2018).

[5] DS Ivanov, LV Zhigilei. Combined atomistic-continuum modeling of short-pulse laser melting and disintegration of metal films. Phys Rev B, 68, 064114(2003).

[6] M Garcia-Lechuga, J Siegel, J Hernandez-Rueda et al. Femtosecond laser ablation of dielectric materials in the optical breakdown regime: expansion of a transparent shell. Appl Phys Lett, 105, 112902(2014).

[7] J Kasparian, M Rodriguez, G Méjean et al. White-light filaments for atmospheric analysis. Science, 301, 61-64(2003).

[8] MGB Ashiq, MA Saeed, BA Tahir et al. Breast cancer therapy by laser-induced Coulomb explosion of gold nanoparticles. Chin J Cancer Res, 25, 756-761(2013).

[9] F Costache, J Reif. Femtosecond laser induced Coulomb explosion from calcium fluoride. Thin Solid Films, 453–454, 334-339(2004).

[10] I Carrasco-García, JM Vadillo, Laserna J Javier. Visualization of surface transformations during laser ablation of solids by femtosecond pump–probe time-resolved microscopy. Spectrochim Acta Part B At Spectrosc, 113, 30-36(2015).

[11] R Fang, A Vorobyev, CL Guo. Direct visualization of the complete evolution of femtosecond laser-induced surface structural dynamics of metals. Light Sci Appl, 6, e16256(2017).

[12] QS Wang, L Jiang, JY Sun et al. Structure-mediated excitation of air plasma and silicon plasma expansion in femtosecond laser pulses ablation. Research, 2018, 5709748(2018).

[13] AH Zewail. Laser femtochemistry. Science, 242, 1645-1653(1988).

[14] A Ehn, J Bood, ZM Li et al. FRAME: femtosecond videography for atomic and molecular dynamics. Light Sci Appl, 6, e17045(2017).

[15] XK Zeng, SQ Zheng, Y Cai et al. High-spatial-resolution ultrafast framing imaging at 15 trillion frames per second by optical parametric amplification. Adv Photonics, 2, 056002(2020).

[16] PP Ding, DL Qi, YH Yao et al. Single-shot polarization-resolved ultrafast mapping photography. Sci Bull, 68, 473-476(2023).

[17] K Nakagawa, A Iwasaki, Y Oishi et al. Sequentially timed all-optical mapping photography (STAMP). Nat Photonics, 8, 695-700(2014).

[18] DL Donoho. Compressed sensing. IEEE Trans Inf Theory, 52, 1289-1306(2006).

[19] X Yuan, DJ Brady, AK Katsaggelos. Snapshot compressive imaging: theory, algorithms, and applications. IEEE Signal Process Mag, 38, 65-88(2021).

[20] X Yuan, ZL Wu, T Luo. Coded aperture snapshot spectral imager. In Liang JY. Coded Optical Imaging, 533-547(2024).

[21] Y Lu, TTW Wong, F Chen et al. Compressed ultrafast spectral-temporal photography. Phys Rev Lett, 122, 193904(2019).

[22] JD Liu, M Marquez, YM Lai et al. Swept coded aperture real-time femtophotography. Nat Commun, 15, 1589(2024).

[23] P Wang, LV Wang. Single‐shot reconfigurable femtosecond imaging of ultrafast optical dynamics. Adv Sci, 10, 2207222(2023).

[24] JY Liang, LR Zhu, LV Wang. Single-shot real-time femtosecond imaging of temporal focusing. Light Sci Appl, 7, 42(2018).

[25] HC Tang, T Men, XL Liu et al. Single-shot compressed optical field topography. Light Sci Appl, 11, 244(2022).

[26] YZ Meng, Y Liu, F Yin et al. High-channel spectral-temporal active recording (H-STAR) for femtosecond scenes observation in a single-shot. ACS Photonics, 11, 419-427(2024).

[27] CS Yang, DL Qi, JY Liang et al. Compressed ultrafast photography by multi-encoding imaging. Laser Phys Lett, 15, 116202(2018).

[28] JC Jing, XM Wei, LV Wang. Spatio-temporal-spectral imaging of non-repeatable dissipative soliton dynamics. Nat Commun, 11, 2059(2020).

[29] JY Liang, C Ma, LR Zhu et al. Single-shot real-time video recording of a photonic Mach cone induced by a scattered light pulse. Sci Adv, 3, e1601814(2017).

[30] LR Zhu, YJ Chen, JY Liang et al. Space- and intensity-constrained reconstruction for compressed ultrafast photography. Optica, 3, 694-697(2016).

[31] P Wang, JY Liang, LV Wang. Single-shot ultrafast imaging attaining 70 trillion frames per second. Nat Commun, 11, 2091(2020).

[32] M McCool, E Fiume. Hierarchical Poisson disk sampling distributions(1992).

[33] RL Cook. Stochastic sampling in computer graphics. ACM Trans Graph, 5, 51-72(1986).

[34] JI Yellott. Spectral consequences of photoreceptor sampling in the rhesus retina. Science, 221, 382-385(1983).

[35] RA Ulichney. Void-and-cluster method for dither array generation. Proc SPIE, 1913, 332-343(1993).

[36] L Wang, PP Ho, C Liu et al. Ballistic 2-D imaging through scattering walls using an ultrafast optical Kerr gate. Science, 253, 769-771(1991).

[37] J Leuthold, C Koos, W Freude. Nonlinear silicon photonics. Nat Photonics, 4, 535-544(2010).

[38] HY Wang, Mello Donegá C De, A Meijerink et al. Ultrafast exciton dynamics in CdSe quantum dots studied from bleaching recovery and fluorescence transients. J Phys Chem B, 110, 733-737(2006).

[39] ZC Chen, L Jiang, YL Lian et al. Enhancement of ablation and ultrafast electron dynamics observation of nickel-based superalloy under double-pulse ultrashort laser irradiation. J Mater Res Technol, 21, 4253-4262(2022).

[40] IH Chowdhury, XF Xu, AM Weiner. Ultrafast double-pulse ablation of fused silica. Appl Phys Lett, 86, 151110(2005).

[41] YL Lian, L Jiang, JY Sun et al. Ultrafast quasi-three-dimensional imaging. Int J Extrem Manuf, 5, 045601(2023).

[42] T Feng, G Chen, HN Han et al. Femtosecond-laser-ablation dynamics in silicon revealed by transient reflectivity change. Micromachines, 13, 14(2021).

[43] X Zhao, YC Shin. Ablation enhancement of silicon by ultrashort double-pulse laser ablation. Appl Phys Lett, 105, 111907(2014).

[44] SI Kudryashov, AA Samokhvalov, YD Golubev et al. Dynamic all-optical control in ultrashort double-pulse laser ablation. Appl Surf Sci, 537, 147940(2021).

[45] CS Yang, DL Qi, X Wang et al. Optimizing codes for compressed ultrafast photography by the genetic algorithm. Optica, 5, 147-151(2018).

[46] M Marquez, G Balistreri, R Morandotti et al. Metalens-based compressed ultracompact femtophotography: analytical modeling and simulations. Ultrafast Sci, 4, 0052(2024).

[47] HC Tang, M Marquez, T Men et al. Temporal resolution of ultrafast compressive imaging using a single-chirped optical probe. Opt Lett, 48, 6080-6083(2023).

[48] FG Sun, ZP Jiang, XC Zhang. Analysis of terahertz pulse measurement with a chirped probe beam. Appl Phys Lett, 73, 2233-2235(1998).