High-Efficiency Ignition Laser Source Based on Diode Laser Beam Combination Technology

Jinliang Han; Jun Zhang; Xiaonan Shan; Hangyu Peng; Li Qin; Lijun Wang

doi:10.3788/CJL202249.0701002

[1] Bruggeman D, Huttl C. State of development of laser ignition[J]. MTZ Worldwide, 70, 28-30(2009).

[2] Brieschenk S, Kleine H, O’Byrne S. Laser ignition of hypersonic air-hydrogen flow[J]. Shock Waves, 23, 439-452(2013).

[3] Pletnev N V, Ponomarev N B, Motalin G A et al. Development and testing of the laser system of ignition of rocket engines[J]. Combustion, Explosion, and Shock Waves, 56, 181-187(2020).

[4] Andronov A A, Gurin V A, Marugin A V et al. Laser ignition in internal-combustion engines: sparkless initiation[J]. Technical Physics Letters, 40, 662-664(2014).

[5] Han J L, Zhang J, Shan X N et al. High power heating light source based on semiconductor laser beam combintion technology[J]. Acta Optica Sinica, 41, 2214001(2021).

[6] Wang Y Y, Ma Y P, Cheng W M et al. Key technology and development of laser multi-initiation system[J]. Initiators & Pyrotechnics, 53-56(2010).

[7] Hu Y, Shen R Q, Ye Y H. Development of laser ignition[J]. Energetic Materials, 8, 141-144(2000).

[8] Dang R R, Li J L. A laser firing and initiating system[J]. Journal of Detection & Control, 21, 3-6,18(1999).

[9] Craig J B, Norman R S. Flight demonstration of MSER diode initiated ordnance[C](1995).

[10] Fahey W D, Carvalho J E. Optical built-in-test (BIT) for laser initiation systems[C](2002).

[11] Benner D E, Haas J, Massey R J et al. Development of a lasers ignited actuator[C](2003).

[12] Cao J S, Wang L J, Shan X N et al. Design of laser ignitio system[J]. Applied Laser, 30, 83-85(2010).

[13] Zhang L, Ling Z, Xiang Z Y. Design of laser initiation control system based on dual-fiber detection technology[J]. Aerospace Control, 31, 84-87(2013).

[14] Wang D, Gao Y L, Li S et al. Research on the design of a semiconductor laser ignition system[J]. Initiators & Pyrotechnics, 5-8(2020).

[15] Ning Y Q, Chen Y Y, Zhang J et al. Brief review of development and techniques for high power semiconductor lasers[J]. Acta Optica Sinica, 41, 0114001(2021).

[16] Zhang J, Peng H Y, Fu X H et al. High-brightness 800-nm semiconductor laser source based on spectral beam combining[J]. Chinese Journal of Lasers, 47, 0701021(2020).

[17] Cao J S. Experimental study on the initiation of semiconductor laser[J]. Laser Journal, 35, 29-32(2014).

[18] Price K, Karlsen S, Leisher P et al. High-brightness fiber-coupled pump laser development[J]. Proceedings of SPIE, 7583, 758308(2010).

[19] Liu R, Jiang X C, Yang T et al. High-brightness 9×× nm fiber coupled diode lasers[J]. Proceedings of SPIE, 9348, 93480V(2015).

[20] Pierer J, Lützelschwab M, Grossmann S et al. Automated assembly processes of high power single emitter diode lasers for 100 W in 105 μm / NA 0.15 fiber module[J]. Proceedings of SPIE, 7918, 79180I(2011).

[21] Kanskar M, Bai C, Bao L et al. High brightness diodes and 600 W 62% efficient low SWaP fiber-coupled package[J]. Proceedings of SPIE, 11262, 112620A(2020).

[22] Heinemann S, Fritsche H, Kruschke B et al. Compact high brightness diode laser emitting 500 W from a 100 μm fiber[J]. Proceedings of SPIE, 8605, 86050Q(2013).

[23] Zhang B Y, Wang G J, He J L et al. Passively mode locking of Nd∶YVO4 laser with grin lens as optical coupler[J]. Acta Optica Sinica, 31, 0714001(2011).