[1] Hugel H. New solid-state lasers and their application potentials [J]. Optics and Lasers in Engineering, 2000, 34:213.

[2] Beach R J, Honea E C, Sutton S B. High-average-power diode-pumped Yb:YAG lasers [C]∥ SPIE, 2000, 3889:246-259.

[3] Matsuno K. Advanced photon processing and measurement technology [J]. GCL-HPL, 2002, 47-48.

[4] Pavel N, Hirano Y, Yamamoto S, et al. Uniform diode-pumped by a highly-diffuse with cross-axis beam delivery side-pumping system, the HIDICAD cavity [C]∥ Laser'99 Conference, 1999, The Tj3 presentation.

[5] Hirano Y, Koyata Y, Yamamoto S, et al. 208 W TEM00 operation of diode-pumped Nd:YAG rod laser [J]. Opt.Lett., 1999, 24(10): 679-681.

[6] Furuta K, Chi Shiui, Fujikawa. 1 kW high-beam-quality Nd:YAG rod laser with cascaded-coupling of bifocusing compensation resonators [C]∥ CLEO, 2002, 177-178.

[7] Pierre J S R, Mordaunt W D, Injeyan H, et al. Diode array pumped kilowatt laser [C]∥ SPIE, 1998, 3264: 2-8.

[8] Tei K, Kato M, et al. High-repetition rate 1 J green laser system [J]. Appl. Opt., 1999, 38(21): 4548-4551.

[9] Tulloch W M, Rutherford TS, Gustafson E K. A CW high power conduction-cooled edge-pumped slab laser [C]∥SIPE, 1999, 3613: 2-7.

[10] Rutherford T S, Tulloch V M, Gustafson E K, et al. Edge-pumped quasi-three-level slab laser: design and power scaling [J]. IEEE J. Q. E., 2000, 36(2): 205-209.

[11] Machan J P, Long W H, Zamel J J, et al. 5 kW diode-pumped solid state laser [J]. 14th Annual on Solid-state and Diode Laser Technology Review, 2002, 16-19.

[12] Rutherford T S, Tulloch V M, Gustafson E K, et al. Edge-pumped quasi-three-level slab laser: design and power scaling [J]. IEEE J.Q.E., 2000, 36(2): 205-209.

[13] Giesen A, Hugel H, Voss A, et al. Scalable concept for diode-pumped high-power solid-state laser [J]. Appl. Phys.B, 1994, 58: 365-372.

[14] Johannsen I. Nd:YAG thin disk laser [J]. Advanced Solid State Laser, 2000, 34: 137-143.

[15] Stewen C, Larionov M, Giesen A, Yb:YAG thin disk laser with 1 kW output power [J]. Advanced Solid State Laser, 2000, 34: 35-41.

[16] Erhard S, Karszewski M, Stewen C, et al. Pumping schemes for multi-kW thin disk [J]. Advanced Solid State Laser, 2000, 34: 78-84.

[17] Contag K, Branuch U, Erhard S, et al. Simulations of the lasing properties of thin disk laser combining high output power with good beam quality [C]∥ SPIE, 1997, 2989: 23-34.

[18] Contag K. Calculations of optimum design parameters for Yb:YAG thin disk lasers [J]. Advanced Solid State Laser, 2000, 34: 124-130.

[19] Vetrovec J, Active mirror amplifier for High-average power [C]∥ SPIE, 2001, 4270: 45-55.

[20] Karsjeeski M. 100 W TEM00 operation of Yb:YAG thin disk laser with high efficiency [J]. Advanced Solid State Laser, 1998, 19: 296.

[21] Tang Chun, Yang Chenglong, Chen Jun, et al. Design of diode pumped 10 kW high brightness Nd: YAG Disc laser [C]∥ SPIE, 2002, 5120: 509-513.

[22] Vetrovec J. Conceptual design of a 100 kW-class solid-state laser [J]. 14th Annual on Solid-state and Diode Laser Technology Review, 2001, 100-103.

[23] Abate J A, Lund L, et al. Active mirror: a large-aperture medium-repetition rate Nd:Glass amplifier [J]. Appl.Opt. 1981, (2): 351.

[24] Brown D C, Kelly J H, Abate J A. Active-mirror amplifiers: progress and prospects [J]. IEEE J. of Quantum Electron., 1981, 17(9): 1755.

[25] Giesen A, Hugel H, Voss A, et al. Scalable concept for diode-pumped high-power lasers [J]. Appl. Phys. B, 1994,58: 365-372.

[26] Zapata L, Beach R, Payne S. Composite thin-disk laser scalable to 100 kW average power output and beyond, in the technical digest from [C]∥ Solid State and Diode Laser Technology Review, Albuquerque, NM., 2000, 5-8.

[27] Vetrovec J. Diode-Pumped active mirror amplifier for high-average power [C]∥ Proc. From LASER 2000 Conference, Albuquerque, NM, 2000, 12: 4-8.

[28] Vetrovec J. Active mirror amplifier for high-average power [C]∥ SPIE, 2001, 4270.

[29] Beach R J, et al. High-average power diode-pumped Yb:YAG lasers [J]. UCRL-JC-133848.

[30] Paxton A H, Massey S M, Mekay J B, et al. Rotating-Disk Solid-state laser [M]. Thermal Properties.

[31] High-power, high-efficiency spinning disk laser [OL]. http:∥www.afrl.af, mil/techconn/index.htm.

[32] Chou H P, Wang Yulin, Hasson V. Compact and efficient DPSS laser using diamond-cooled technology [C]∥SPIE, 2004, 5448: 550-560.

[33] Lafortune K N, Hurd R L, Johansson E M, et al. Intracavity adaptice correction of a 10 kW, silod-state heatcapacity laser [C]∥ SPIE, 2004, 5333: 53-61.