Abstract
A passively Q-switched and two side liquid-cooled Nd:YAG disk oscillator is demonstrated, which is operated at a pump pulse width of 300 μs and a pump repetition rate of 10 Hz. The coolant flows over the two large surfaces of the disk and will be passed through by laser beam, so it can also serve as a saturable absorber. For the unmodulated laser, the pure CCl4 was employed as coolant and a plane output mirror of 15 % transmission was employed. The maximum output energy of 795 mJ is realized corresponding to the optical–optical efficiency of 27.4 % and the slope efficiency of 30 %; for the graphene Q-switched laser, the CCl4 with graphene nanosheets was employed as coolant and a plane output mirror of 40 % transmission was employed. The maximum output energy of 376 mJ is realized corresponding to the optical–optical efficiency of 13 % and the slope efficiency of 18 %. The maximum average Q-switching repetition rate is 385 kHz, and the minimum average pulse width is 116 ns; for the MoS2 Q-switched laser, the CCl4 with MoS2 nanosheets was employed as coolant and a plane output mirror of 30 % transmission was employed. The maximum output energy of 486 mJ is realized corresponding to the optical–optical efficiency of 17 % and the slope efficiency of 22 %.The maximum average Q-switching repetition rate is 470 kHz, and the minimum average pulse width is 137 ns.
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S. Chénais, F. Druon, S. Forget, F. Balembois, P. Georges, Prog. Quant. Electron. 30, 89 (2006)
G.F. Albrecht, S.B. Sutton, H.F. Robey, B.L. Freitas, in Proceeding of SPIE, ed. by G. Dube (SPIE, Los Angeles, 1989), p. 37
J. Vetrovec, in Proceedings of SPIE, ed. by C.R. Phipps (SPIE, Taos, 2002), p. 491
M.D. Perry, P.S. Banks, J. Zweiback, R.W. Schleicher (General Atomics), USA Patent 7366211B2, 2008
Mandl, D.E. Klimek, in Conference on Lasers and Electro-Optics (OSA, San Jose, CA, USA, 2010), p. JThH2
Z. Ye, Z. Cai, B. Tu, K. Wang, Q. Gao, C. Tang, C. Liu, Proceedings of SPIE, vol 9671 (SPIE, Beijing, China, 2015), p. 967121-1–967121-7
X. Fu, P. Li, Q. Liu, M. Gong, Opt. Express 22, 18421 (2014)
P. Li, X. Fu, Q. Liu, M. Gong. Appl. Phys. B 119(2), 371–380 (2015)
R. Nie, J. She, P. Zhao, F. Li, B. Peng, Laser Phys. Lett. 11, 115808 (2014)
X.-L. Li, J.-L. Xu, Y.-Z. Wu, J.-L. He, X.-P. Hao, Opt. Express 19, 9950 (2011)
Q. Wen, X. Zhang, Y. Wang, Y. Wang, H. Niu, Photon. J. IEEE 6, 1 (2014)
Y.G. Wang, H.R. Chen, X.M. Wen, W.F. Hsieh, J. Tang, Nanotechnology 22, 455203 (2011)
D. Mao et al., Opt. Express 23, 27509 (2015)
B. Xu et al., Opt. Express 22, 28934 (2014)
H. Zhang, S. Lu, J. Zheng, J. Du, S. Wen, D. Tang, K. Loh, Opt. Express 22, 7249 (2014)
R.R. Nair, P. Blake, A.N. Grigorenko, K.S. Novoselov, T.J. Booth, T. Stauber, N.M. Peres, A.K. Geim, Science 320, 1308 (2008)
K.F. Mak, C. Lee, J. Hone, J. Shan, T.F. Heinz, Phys. Rev. Lett. 105, 136805 (2010)
A. Acrivos, A.I.Ch.E J. 6, 584 (1960)
R. Dunsmuir, J. Electron. Control 10, 453 (1961)
X. Fu, Q. Liu, P. Li, L. Huang, M. Gong, Opt. Express 23, 18458 (2015)
P. Li, X. Fu, Q. Liu, M. Gong, J. Opt. Soc. Am. B 30, 2161 (2013)
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This work is financially supported by the National Natural Science Foundation of China (NSFC, No. 61308086) and Natural Science Basic Research Plan in Shaanxi Province of China (No: 2016JQ6016).
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Nie, R., She, J., Li, D. et al. Two side liquid-cooled and passively Q-switched disk oscillator with nanosheets in flowing CCl4 . Appl. Phys. B 122, 241 (2016). https://doi.org/10.1007/s00340-016-6519-4
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DOI: https://doi.org/10.1007/s00340-016-6519-4