[1] Berger J, Welch D F, Scifres D R, et al.370 mW,1.06 μm,CW TEM00 output from an Nd:YAG laser rod end-pumped by a monolithic diode array[J]. Elec Lett,1987,(23):669-670.
[2] Berger J, Welch D F, Streifer W, et al. Fiber-bundle coupled diode end-pumped Nd:YAG laser[J]. Opt Lett,1988,13(4):306-308.
[3] Kozlovsky W J, Fan T Y, Byer R L. Diode-pumped continuous-wave Nd:glass laser[J]. Opt Lett, 1986,11(12):788-790.
[4] Berger J, Welch D F, Scifres D R, et al. High power, high efficient neodymium: aluminum garnet laser end-pumped by a laser diode array[J].Appl Phys Lett,1987,51(16):1221-1224.
[5] Kaminslii A A, Kaminskii, Hans J Eichler, et al. Properties of Nd3+:-doped and undoped tetragonal PbWO4, NaY(WO4)2, and undoped monoclinic ZnWO4 and CdWO4 as: laser-active and stimulated Raman scattering-active crystals[J]. Appl Opt, 1999, 38(21): 4533-4547.
[8] Chen L, Zhao S, Zheng J. Characteristics of a passively Q-switched Nd3+:NaY(WO4)2 laser with Cr4+:YAG saturable absorber[J]. Opt & Laser Technol, 2002, 34(5):347-350.
[9] Liu Jun hai, Lu Jian ren, Lu Tun hua, et al. Thermal lens determination of end-pumped solid-state laser by a simple direct approach[J].Chin Phys Lett,1999,16(3):181-183.
[11] Silvestri S D, Laporta P, Magni V. Pump power stability range of single solid state lasers with rod thermal lensing[J]. IEEE J Quantum Electronics,1987,23(11):1999-2003.
[13] Chen Y F, Huang T M, Kao C F, et al. Optimization in scaling fiber-coupled laser-diode end-pumped lasers to higher power: Influence of thermal effect[J].IEEE J Quantum Electronics,1997,33(8):1424-1429.
[14] Hall D G, Smith R J, Rice R. Pump-size effects in Nd:YAG lasers[J].Appl Opt,1980,19(18):3041-3043.
[15] Fan T Y, Sanchez A. Pumping source requirements for end-pumped lasers[J]. IEEE J Quantum Electronics,1990,26(2):311-316.