Femtosecond laser-induced periodic structures: mechanisms, techniques, and applications
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Opto-Electronic Advances
Reference204 articles.
1. Fork RL, Greene BI, Shank CV. Generation of optical pulses shorter than 0.1 psec by colliding pulse mode locking. Appl Phys Lett 38, 671–672 (1981).
Fork RL, Greene BI, Shank CV. Generation of optical pulses shorter than 0.1 psec by colliding pulse mode locking. Appl Phys Lett 38, 671–672 (1981).
2. Chichkov BN, Momma C, Nolte S, Von Alvensleben F, Tünnermann A. Femtosecond, picosecond and nanosecond laser ablation of solids. Appl Phys A 63, 109–115 (1996).
Chichkov BN, Momma C, Nolte S, Von Alvensleben F, Tünnermann A. Femtosecond, picosecond and nanosecond laser ablation of solids. Appl Phys A 63, 109–115 (1996).
3. Sugioka K, Cheng Y. Ultrafast lasers—reliable tools for advanced materials processing. Light Sci Appl 3, e149 (2014).
Sugioka K, Cheng Y. Ultrafast lasers—reliable tools for advanced materials processing. Light Sci Appl 3, e149 (2014).
4. Buividas R, Mikutis M, Juodkazis S. Surface and bulk structuring of materials by ripples with long and short laser pulses: recent advances. Prog Quant Electron 38, 119–156 (2014).
Buividas R, Mikutis M, Juodkazis S. Surface and bulk structuring of materials by ripples with long and short laser pulses: recent advances. Prog Quant Electron 38, 119–156 (2014).
5. Yang QX, Liu HL, He S, Tian QY, Xu B et al. Circular cladding waveguides in Pr:YAG fabricated by femtosecond laser inscription: Raman, luminescence properties and guiding performance. Opto-Electron Adv 4, 200005 (2021).
Yang QX, Liu HL, He S, Tian QY, Xu B et al. Circular cladding waveguides in Pr:YAG fabricated by femtosecond laser inscription: Raman, luminescence properties and guiding performance. Opto-Electron Adv 4, 200005 (2021).
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