[1] A. Bayramian, Status of the Mercury Laser[R]. High Average Power Laser Program Workshop, Rochester NY, 2005
[2] J. Gardelle, E. Pasini, B. Bicrel. A new regime of plasma-electrode Pockels cell operation for the laser megajoules project[R]. Proc. IFSA, 2001. 510~513
[3] Sethian et al.. A review of the inertial fusion energy program, final report to FESAC[R]. 2004. 4
[4] I. P. Khristov, I. V. Tomov, S. M. Saltiel. Self-heating effects in electro-optic light modulators[J]. Opt. Quantum Electron., 1983, 15: 289~295
[5] S. Z. Kurtev, O. E. Denchev, S. D. Savov. Effects of thermally induced birefringence in high-output-power electro-optically Q-switched Nd∶YAG lasers and their compensation[J]. Appl. Opt., 1993, 32(3): 278
[6] J. Gardelle, E. Pasini, B. Bicrel. A new regime of plasma-electrode Pockels cell operation for the laser megajoules project[R]. Proc. IFSA, 2001. 510~513
[8] Cao Dingxiang, Zhang Xiongjun, Zheng Wanguo et al.. Simulation of thermodynamics of electro-optic switches for high average power[J]. Chinese J. Lasers, 2006, 33(1): 301~303
[9] Octave, Levenspiel. Engineering Fluid Mechanics and Heat transfer[M]. Wang Shaoting transl., Tianjing: Tianjing University Press, 1990
[10] Bergles A E. Heat transfer enhancement——the encouragement and accommodation of high heat fluxes. ASME[J]. Heat Transfer, 1997, 119: 8~19
[11] Guo Z Y, Li D Y, Wang B X. A novel concept for convective heat transfer enhancement[J]. Heat Mass Transfer, 1998, 41(14): 2221~2225