[1] Wanqin Zhao, Xuesong Mei, Wenjun Wang. Ultrashort pulse laser drilling of micro-holes (part 2)—experimental study. Infrared and Laser Engineering, 48, 0242001(2019).

[2] Jiaru Zhang, Yingchun Guan. Current status and research progress of surface functional microstructure of biomedical materials prepared by ultrafast laser. Chinese Optics, 12, 199-213(2019).

[3] Guodong Zhang, Guanghua Cheng, Wei Zhang. Research progress of ultrafast laser selective welding technology. Chinese Optics, 13, 1209-1223(2020).

[4] Yahui Su, Tiantian Qin, Bing Xu, et al. Fabrication and imaging of patterned microlens by femtosecond laser two-photon polymerization. Optics and Precision Engineering, 28, 2629-2635(2020).

[5] Fei Miao, Ling Zhang, Dejun Feng, et al. Long period fiber gratings were fabricated by 800 nm femtosecond laser. Optics and Precision Engineering, 20, 685-691(2012).

[6] A H Nejadmalayeri, P R Herman, J Burghoff, et al. Inscription of optical waveguides in crystalline silicon by mid-infrared femtosecond laser pulses. Optics Letters, 30, 964-966(2005).

[7] H Kaemmer, G Matthaeus, S Nolte, et al. In-volume structuring of silicon using picosecond laser pulses. Applied Physics A, 124, 302(2018).

[8] X Wang, X Yu, M Berg, et al. Nanosecond laser writing of straight and curved waveguides in silicon with shaped beams. Journal of Laser Applications, 32, 022002(2020).

[9] R Zazo, J Solis, J A Sanchez-Gil, et al. Deep UV laser induced periodic surface structures on silicon formed by self-organization of nanoparticles. Applied Surface Science, 520, 146307(2020).

[10] Gao Y F, Yu C Y, Han B, et al. Picosecond laserinduced periodic surface structures (LIPSS) on crystalline silicon [J]. Surfaces Interfaces, 2020, 19: 100538.

[11] L Ji, X Lv, Y Wu, et al. Hydrophobic light-trapping structures fabricated on silicon surfaces by picosecond laser texturing and chemical etching. Journal of Photonics for Energy, 5, 053094(2015).

[12] L L Taylor, R E Scott, Q Jie. Integrating two-temperature and classical heat accumulation models to predict femtosecond laser processing of silicon. Optical Materials Express, 8, 648(2018).

[13] G D Tsibidis, E Stratakis, K E Aifantis. Thermoplastic deformation of silicon surfaces induced by ultrashort pulsed lasers in submelting conditions. Journal of Applied Physics, 111, 701(2012).

[14] Zhiming Li, Jinsong Nie, Yuze Hu, et al. Heat accumulation effect of high frequency femtosecond laser on silicon ablation. Laser & Infrared, 47, 410-415(2017).

[15] Mao S S, Mao X L, Greif R, et al. Simulation of infrared picosecond laserinduced electron emission from semiconducts[J]. Applied Surface Science, 1998, 127129: 206211.

[16] Tsibidis G D, Barberoglou M, Loukakos P A, et al. Dynamics of ripple fmation on silicon surfaces by ultrasht laser pulses in subablation conditions[J]. Physical Review B, 2012, 86: 115316.

[17] G E Jellison. Optical absorption of silicon between 1.6 and 4.7 eV at elevated temperatures. Applied Physics Letters, 41, 180-182(1982).

[18] T Boggess, K M Bohnert, K Mansour, et al. Simultaneous measurement of the two-photon coefficient and free-carrier cross section above the bandgap of crystalline silicon. IEEE Journal of Quantum Electronics, 22, 360-368(1986).

[19] K G Svantesson, N G Nilsson. Determination of the temperature-dependence of the free carrier and interband absorption in silicon AT 1.06 MU-M. Journal of Physics C Solid State Physics, 12, 3837-3842(1979).

[20] Shao J, Jin G, Wang T. Theetical research on damage mechanism of ultrafast laser ablation crystal silicon [C] International Symposium on Photoelectronic Detection Imaging 2013: High Power Lasers Applications. International Society f Optics Photonics, 2013.

[21] G Felice, J N Jijil, F Rosalba, et al. Analysis of nascent silicon phase-change gratings induced by femtosecond laser irradiation in vacuum. Scientific Reports, 8, 12498(2018).

[22] A M Mahmoud, I Liberal, N Engheta, et al. Dipole-dipole interactions mediated by epsilon-and-mu-near-zero waveguide supercoupling. Optical Materials Express, 7, 415-424(2017).

[23] Derrien J Y, Bulgakova N M. Modeling of silicon in femtosecond laserinduced modification regimes: Accounting f ambipolar diffusion [C]Society of Photooptical Instrumentation Engineers. International Society f Optics Photonics, 2017.