Lopez J, Mishchik K, Mincuzzi G, Audouard E, Mottay E and Kling R 2017 Efficient metal processing using high average power ultrafast laser J. Laser Micro Nano Eng. 12296-303 |
Mottay E 2022 Ultrafast lasers today PhotonicsViews 1980-83 |
Hönninger C and Audouard E 2018 Multi-100-Watt femtosecond laser perspectives Laser Tech. J. 1550-53 |
Kerse C et al 2016 Ablation-cooled material removal with ultrafast bursts of pulses Nature 53784-88 |
Elahi P, Akçaalan Ö, Ertek C, Eken K, Ilday F Ö and Kalaycoglu H 2018 High-power Yb-based all-fiber laser delivering 300 fs pulses for high-speed ablation-cooled material removal Opt. Lett. 43535-8 |
Bonamis G, Mishchik K, Lopez J, Manek-Hönninger I and Audouard E 2018 Conf. on Lasers and Electro-Optics (CLEO):Applications and Technology (California:United States) p AM2M |
Bonamis G, Mishchik K, Audouard E, Hönninger C, Mottay E, Lopez J and Manek-Hönninger I 2019 High efficiency femtosecond laser ablation with gigahertz level bursts J. Lasers Appl. 31022205 |
Mishchik K, Bonamis G, Qiao J, Lopez J, Audouard E, Mottay E, Hönninger C and Manek-Hönninger I 2019 High-efficiency femtosecond ablation of silicon with GHz repetition rate laser source Opt. Lett. 442193-6 |
Audouard E, Bonamis G, Hönninger C, Mishchik K and Mottay E 2019 Méthode de Détermination Des Conditions Opérationnelles d'un Procédé d'ablation Laser Femtoseconde à Très Haute Cadence Pour Un Matériau Donné French Patent n 1901188 |
Bonamis G, Audouard E, Hönninger C, Lopez J, Mishchik K, Mottay E and Manek-Hönninger I 2020 Systematic study of laser ablation with GHz bursts of femtosecond pulses Opt. Express 2827702-14 |
Bonamis G 2020 Conception et réalisation d'une source laser femtoseconde GHz et applications au régime d'ablation très haute cadence (Université de Bordeaux) (available at:www. theses.fr/2020BORD0293) |
Audouard E, Bonamis G, Hönninger C and Mottay E 2021 GHz femtosecond processing with agile high-power laser:high power and flexible fs lasers in GHz burst mode open new horizons for femtosecond laser processing Adv. Opt. Technol. 10263-75 |
Lopez J, Niane S, Bonamis G, Audouard E, Hönninger C, Mottay E and Manek-Hönninger I 2022 New possibilities with femtosecond GHz-burst laser processing Proc. SPIE 11988 |
Lopez J, Niane S, Bonamis G, Balage P, Audouard E, Hönninger C, Mottay E and Manek-Hönninger I 2022 Percussion drilling in glasses and process dynamics with femtosecond laser GHz-bursts Opt. Express 312533-44 |
Matsumoto H, Lin Z B and Kleinert J 2018 Ultrafast laser ablation of Copper with GHz-bursts Proc. SPIE 10519 |
Povarnitsyn M E, Levashov P R and Knyazev D V 2018 Simulation of ultrafast bursts of subpicosecond pulses:in pursuit of efficiency Appl. Phys. Lett. 112051603 |
Nyenhuis F, Michalowski A and L'Huillier J A 2020 Surface treatment with GHz bursts Proc. SPIE 11268 |
Metzner D, Lickschat P and Weißmantel S 2020 High-quality surface treatment using GHz burst mode with tunable ultrashort pulses Appl. Surf. Sci. 531147270 |
Hendow S, Takahashi H, Yamaguchi M and Xu J Z 2020 Enhanced ablation using GHz-pulsed fs laser Proc. SPIE 11268 |
Sailer M et al 2020 Micromachining flexibility by tunable ultrashort pulse duration, pulse-on-demand, and hybrid processing from single pulse to GHZ burst with TruMicro series 2000 Proc. SPIE 11267 |
Schwarz S, Rung S, Esen C and Hellmann R 2021 Enhanced ablation efficiency using GHz bursts in micromachining fused silica Opt. Lett. 46282-5 |
Sugioka K 2021 Will GHz burst mode create a new path to femtosecond laser processing? Int. J. Extrem. Manuf. 3043001 |
Matsumoto H, Lin Z B, Schrauben J N and Kleinert J 2021 Ultrafast laser ablation of silicon with ~GHz bursts Laser Appl. 33032010 |
Cheng C W and Chen J K 2020 Ultrafast laser ablation of copper by GHz bursts Appl. Phys. A 126649 |
Remund S M, Gafner M, Chaja M V, Urniezius A, Butkus S and Neuenschwander B 2020 Milling applications with GHz burst:investigations concerning the removal rate and machining quality Proc. CIRP 94850-5 |
Butkus S, Jukna V, Paipulas D, Barkauskas M and Sirutkaitis V 2020 Micromachining of invar foils with GHz, MHz and kHz femtosecond burst modes Micromachines 11733 |
Hirsiger T, Gafner M, Remund M, Chaja M W, Urniezius A, Butkus S and Neuenschwander B 2020 Machining metals and silicon with GHz bursts:surprising tremendous reduction of the specific removal rate for surface texturing applications Proc. SPIE 11267 |
Žemaitis A, Gaidys M, Gečys P, Barkauskas M and Gedvilas M 2021 Femtosecond laser ablation by bibursts in the MHz and GHz pulse repetition rates Opt. Express 297641-53 |
Förster D J, Jäggi 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 143331 |
Balachninaitė O, Tamulienė V, Eičas L and Vaičaitis V 2021 Laser micromachining of steel and copper using femtosecond laser pulses in GHz burst mode Results Phys. 22103847 |
Obata K, Caballero-Lucas F and Sugioka K 2021 Material processing at GHz burst mode by femtosecond laser ablation J. Laser Micro Nanoeng. 162-6 |
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. 4015103 |
Ancona A, Döring S, Jauregui C, Röser F, Limpert J, Nolte S and Tünnermann A 2009 Femtosecond and picosecond laser drilling of metals at high repetition rates and average powers Opt. Lett. 343304-6 |
Colombier J P, Combis P, Bonneau F, Le Harzic R and Audouard E 2005 Hydrodynamic simulations of metal ablation by femtosecond laser irradiation Phys. Rev. B 71165406 |
Taylor L L, Qiao J and Qiao J 2016 Optimization of femtosecond laser processing of silicon via numerical modeling Opt. Mater. Express 62745-58 |
Colombier J P, Combis P, Stoian R and Audouard E 2007 High shock release in ultrafast laser irradiated metals:scenario for material ejection Phys. Rev. B 75104105 |
Povarnitsyn M E and Levashov P R 2019 Simulation of single-, double-and multi-pulse laser ablation of metals J. Phys. Conf. Ser. 1147012063 |
Menold T, Ametowobla M, Köhler J R and Werner J H 2018 Surface patterning of monocrystalline silicon induced by spot laser melting J. Appl. Phys. 124163104 |
Taylor L L, Scott R E and Qiao J 2018 Integrating two-temperature and classical heat accumulation models to predict femtosecond laser processing of silicon Opt. Mater. Express 8648-58 |
Martynyuk M M 1977 Phase explosion of a metastable fluid Combust. Explos. Shock Waves 13178-91 |
Vidal F, Johnston T W, Laville S, Barthélemy O, Chaker M, Drogoff B L, Margot J and Sabsabi M 2001 Critical-point phase separation in laser ablation of conductors Phys. Rev. Lett. 862573-6 |
Lu Q M, Mao S S, Mao X L and Russo R E 2002 Delayed phase explosion during high-power nanosecond laser ablation of silicon Appl. Phys. Lett. 803072-4 |
Thorstensen J and Foss S E 2012 Temperature dependent ablation threshold in silicon using ultrashort laser pulses J. Appl. Phys. 112103514 |
Schultze M et al 2014 Attosecond band-gap dynamics in silicon Science 3461348-52 |
De Laurentis M and Irace A 2014 Optical measurement techniques of recombination lifetime based on the free carriers absorption effect J. Solid State Phys. 2014291469 |
Bonse J, Brzezinka K W and Meixner A J 2004 Modifying single-crystalline silicon by femtosecond laser pulses:an analysis by micro Raman spectroscopy, scanning laser microscopy and atomic force microscopy Appl. Surf. Sci. 221215-30 |
Glassbrenner C and Slack G A 1964 Thermal conductivity of silicon and germanium from 3 K to the melting point Phys. Rev. 134 A1058 |
Neuenschwander B, Jaeggi B, Foerster D J, Kramer T and Remund S 2019 Influence of the burst mode onto the specific removal rate for metals and semiconductors J. Lasers Appl. 31022203 |
Domke M, Matylitsky V and Stroj S 2020 Surface ablation efficiency and quality of fs lasers in single-pulse mode, fs lasers in burst mode, and ns lasers Appl. Surf. Sci. 505144594 |