Direct generation of a stable multi-beam pulsed 355 nm UV laser based on a micro-lens array

Jiao Wei; Pixian Jin; Xuechen Cao; Jing Su; Huadong Lu; Kunchi Peng

doi:10.3788/COL202220.041405

[1] J. Bovatsek, A. Tamhankar, R. Patel. UV lasers improve PCB manufacturing processes. Laser Focus World, 48, 48(2012).

[2] R. S. Patel, A. Tamhankar, T. Edwards. Diode-pumped solid-state UV lasers improve LED sapphire wafer scribing. Photon. Spectra, 44, 46(2010).

[3] T. Rauch, R. Delmdahl, V. Pfeufer, M. Mondry. Advanced UV lasers enable precision processing. Laser Tech. J., 6, 20(2009).

[4] Z. Kuang, W. Perrie, D. Liu, P. Fitzsimons, S. P. Edwardson, E. Fearon, G. Dearden, K. G. Watkins. Ultrashort pulse laser patterning of indium tin oxide thin films on glass by uniform diffractive beam patterns. Appl. Surf. Sci., 258, 7601(2012).

[5] D. Ashkenasi, A. Rosenfeld, H. Varel, M. Wahmer, E. E. B. Campbell. Laser processing of sapphire with picosecond and sub-picosecond pulses. Appl. Surf. Sci., 120, 65(1997).

[6] A. Wolynski, T. Herrmann, P. Mucha, H. Haloui, J. L’huillier. Laser ablation of CFRP using picosecond laser pulses at different wavelengths from UV to IR. Phys. Procedia, 12, 292(2011).

[7] C. T. Chen, Y. C. Wu, A. D. Jiang, B. C. Wu, G. M. You, R. K. Li, S. J. Lin. New nonlinear-optical crystal: LiB3O5. J. Opt. Soc. Am. B, 6, 616(1989).

[8] B. C. Wu, N. Chen, C. T. Chen, D. Q. Deng, Z. Y. Xu. Highly efficient ultraviolet generation at 355 nm in LiB3O5. Opt. Lett., 14, 1080(1989).

[9] H. Chen, Q. Liu, P. Yan, M. Gong. High-power 355 nm ultraviolet lasers operating at ultrahigh repetition rate. Laser Phys. Lett., 10, 025401(2013).

[10] L. Zhang, K. Li, D. G. Xu, H. J. Yu, G. C. Zhang, Y. Y. Wang, L. R. Wang, F. X. Shan, C. Yan, Y. Y. Yang, B. H. Wang, N. Wang, X. C. Lin, Y. C. Wu, J. Q. Yao. A 7.81 W 355 nm ultraviolet picosecond laser using La2CaB10O19 as a nonlinear optical crystal. Opt. Express, 22, 17187(2014).

[11] S. C. Kumar, E. S. Bautista, M. Ebrahim-Zadeh. Stable, high-power, Yb-fiber-based, picosecond ultraviolet generation at 355 nm using BiB3O6. Opt. Lett., 40, 403(2015).

[12] B. Xu, Z. Y. Hou, M. J. Xia, L. J. Liu, X. Y. Wang, R. K. Li, C. T. Chen. High average power third harmonic generation at 355 nm with K3B6O10Br crystal. Opt. Express, 24, 10345(2016).

[13] S. Möller, Ä. Andresen, C. Merschjann, B. Zimmermann, M. Prinz, M. Imlau. Insight to UV-induced formation of laser damage on LiB3O5 optical surfaces during long-term sum-frequency generation. Opt. Express, 15, 7351(2007).

[14] H. L. Hong, Q. Liu, L. Huang, M. L. Gong. Improvement and formation of UV-induced damage on LBO crystal surface during long-term high-power third-harmonic generation. Opt. Express, 21, 7285(2013).

[15] J. Xiang, J. X. Li, H. Li, C. Y. Zhang, Q. F. Dai, S. L. Tie, S. Lan. Polarization beam splitters, converters and analyzers based on a metasurface composed of regularly arranged silicon nanospheres with controllable coupling strength. Opt. Express, 24, 11420(2016).

[16] P. G. Luan, K. D. Chan. Transmission characteristics of finite periodic dielectric waveguides. Opt. Express, 14, 3263(2006).

[17] Y. F. Ma, Y. He, X. Yu, X. D. Li, J. Li, R. P. Yan, J. B. Peng, X. L. Zhang, R. Sun, Y. B. Pan, D. Y. Chen. Multiple-beam, pulse-burst, passively Q-switched ceramic Nd:YAG laser under micro-lens array pumping. Opt. Express, 23, 24955(2015).

[18] F. Q. Li, Y. H. Zheng, K. S. Zhang. An all-solid-state high power cw Nd:YVO4/LBO green laser of TEM00 operation. J. Quantum Opt., 12, 176(2006).

[19]

Data from CrossRef