[1] Sugioka K and Cheng Y 2014 Ultrafast lasers—reliable tools for advanced materials processing Light Sci. Appl. 3 e149
[2] Sugioka K and Cheng Y 2014 Femtosecond laser three-dimensional micro-and nanofabrication Appl. Phys. Rev. 1 041303
[3] Phillips K C, Gandhi H H, Mazur E and Sundaram S K 2015 Ultrafast laser processing of materials: a review Adv. Opt. Photonics 7 684–712
[4] Nolte S, Schrempel F and Dausinger F 2016 Ultrashort Pulse Laser Technology vol 195 (Cham: Springer)
[5] Eaton S M, Zhang H B, Herman P R, Yoshino F, Shah L, Bovatsek J and Arai A Y 2005 Heat accumulation effects in femtosecond laser-written waveguides with variable repetition rate Opt. Exp. 13 4708–16
[6] Kerse C et al 2016 Ablation-cooled material removal with ultrafast bursts of pulses Nature 537 84–88
[7] Mishchik K, Bonamis G, Qiao J, Lopez J, Audouard E, Mottay E, H.nninger C and Manek-H.nninger I 2019 Highefficiency femtosecond ablation of silicon with GHz repetition rate laser source Opt. Lett. 44 2193–6
[8] Bonamis G, Audouard E, H.nninger C, Lopez J, Mishchik K, Mottay E and Manek-H.nninger I 2020 Systematic study of laser ablation with GHz bursts of femtosecond pulses Opt. Exp. 28 27702–14
[9] Metzner D, Lickschat P and Wei.mantel S 2020 High-quality surface treatment using GHz burst mode with tunable ultrashort pulses Appl. Surf. Sci. 531 147270
[10] Hodgson N, Allegre H, Starodoumov A and Bettencourt S 2020 Femtosecond laser ablation in burst mode as a function of pulse fluence and intra-burst repetition rate J. Laser Micro Nanoeng. 15 236–44
[11] Metzner D, Lickschat P and Wei.mantel S 2021 Optimization of the ablation process using ultrashort pulsed laser radiation in different burst modes J. Laser Appl. 33 012057
[12] .emaitis A, Gaidys M, Gecˇys P, Barkauskas M and Gedvilas M 2021 Femtosecond laser ablation by bibursts in the MHz and GHz pulse repetition rates Opt. Exp. 29 7641–53
[13] Matsumoto H, Lin Z B, Schrauben J N and Kleinert J 2021 Ultrafast laser ablation of silicon with ~GHz bursts J. Laser Appl. 33 032010
[14] Obata K, Caballero-Lucas F and Sugioka K 2021 Material processing at GHz burst mode by femtosecond laser ablation J. Laser Micro Nanoeng. 16 19–23
[15] Sugioka K 2021 Will GHz burst mode create a new path to femtosecond laser processing? Int. J. Extrem. Manuf. 3 043001
[16] F.rster D J, J.ggi B, Michalowski A and Neuenschwander B 2021 Review on experimental and theoretical investigations of ultra-short pulsed laser ablation of metals with burst pulses Materials 14 3331
[17] Caballero-Lucas F, Obata K and Sugioka K 2022 Enhanced ablation efficiency for silicon by femtosecond laser microprocessing with GHz bursts in MHz bursts (BiBurst) Int. J. Extrem. Manuf. 4 015103
[18] Zhang H, Zhang F T, Du X, Dong G P and Qiu J R 2015 Influence of laser-induced air breakdown on femtosecond laser ablation of aluminum Opt. Exp. 23 1370–6
[19] Ancona A, R.ser F, Rademaker K, Limpert J, Nolte S and Tünnermann A 2008 High speed laser drilling of metals using a high repetition rate, high average power ultrafast fiber CPA system Opt. Exp. 16 8958–68
[20] Braun A, Korn G, Liu X, Du D, Squier J and Mourou G 1995 Self-channeling of high-peak-power femtosecond laser pulses in air Opt. Lett. 20 73–75
[21] Garcia-Lechuga M, Utéza O, Sanner N and Grojo D 2020 Evidencing the nonlinearity independence of resolution in femtosecond laser ablation Opt. Lett. 45 952–5
