[1] Yu Jianhua, Zhu Qiang, Quan Hongyan et al.. High power alkali vapor laser used in geo-synchronous satellite launching［J］. Laser & Optoelectronics Progress, 2007, 44(11): 18～23

[2] Yu Jianhua, Zhu Qiang, Xie Wu et al.. High-power laser diode-pumped alkali metal vapor laser［J］. Laser & Optoelectronics Progress, 2006, 43(7): 46～51

[3] W. F. Krupke, R. J. Beach, V. K. Kanz et al.. Resonance transition 795 nm rubidium laser［J］. Opt. Lett., 2003, 28(23): 2336～2338

[4] R. H. Page, R.J.Beach, V. K. Kanz et al.. First demonstration of a diode-pumped gas (alkali vapor) laser［C］. CLEO, 2005, 467～469

[5] B. V. Zhdanov, R. J. Knize. Diode-pumped 10 W continuous wave cesium laser［J］. Opt. Lett., 2007, 32(15): 2167～2169

[6] B. V. Zhdanov, A. Stooke, G. Boyadjian et al.. Rubidium vapor laser pumped by two laser diode arrays［J］. Opt. Lett., 2007, 33(5): 414～415

[7] B. V. Zhdanov, J. Sell, R. J. Knize. Multiple laser diode array pumped Cs laser with 48 W output power［J］. Electron. Lett., 2008, 44(9): 582～584

[8] D. A. Hostutler, W. L. Klennert. Power enhancement of a rubidium vapor laser with a master oscillator power amplifier［J］. Opt. Express, 2008, 16(11): 8050～8053

[9] G. Hager, J. McIver, D. Hostutler et al.. Quasi-two level analytic model for end pumped alkali metal vapor laser［C］. SPIE, 2008, 700528-1

[10] G. A. Pitz, G. P. Perram. Pressure broadening of the D1 and D2 lines in diode pumped alkali lasers［C］. SPIE, 2008, 7005: 700526-1

[11] Y. Wang, T. Kasamatsu, Y. Zheng et al.. Cesium vapor laser pumped by a volume-Bragg-grating coupled quasi-continuous-wave laser-diode array［J］. Appl. Phys. Lett., 2006, 88(14): 14112

[12] Y. Wang, M. Niigaki, H. Fukuoka et al.. Approaches of output improvement for a cesium vapor laser pumped by a volume-Bragg-grating coupled laser-diode-array［J］. Phys. Lett. A, 2007, 360(4-5): 659～663

[13] Y. Wang, M. Niigaki, H. Fukuoka et al.. High-efficiency 894 nm laser emission of laser-diode-bar-pumped cesium-vapor laser［J］. Appl. Phys. Exp., 2009, 2: 032051

[14] DPAL Sets Peak Power Record. Photons&fusion, news letter [J]. 2008. 11

[15] C. Lim, Y. Izawa. Modeling of end-pumped CW quasi-three-level lasers［J］. IEEE J. Quantum Electron., 2002, 38(3): 306～311

[16] T. Y. Fan. Optimizing the efficiency and stored energy in quasi-three-level lasers［J］. IEEE J. Quantum Electron., 1992, 28(12): 2692～2697

[17] P. Peterson, A. Gavrielides, P. M. Sharma. CW theory of a laser diode-pumped two-manifold solid state laser［J］. Opt. Commun., 1994, 109(3-4): 282～287

[18] F. Augé, F. Druon, F. Balembois et al.. Theoretical and experimental investigations of a diode-pumped quasi-three-level laser: The Yb3+ doped Ca4GdO(BO3)3(YbGdCOB) laser［J］. IEEE J. Quantum Electron., 2000, 36(5): 598～606

[19] A. E. Siegmann. Lasers［M］. Sausalito: University Science Books, 1986. Chap. 4

[20] R. J. Beach. CW theory of quasi-three level end-pumped laser oscillators [J]. Opt. Commun., 1996, 123(1-3): 385～393

[21] R. J. Beach, W. F. Krupke, V. K. Kanz et al.. End-pumped continuouswave alkali vapor lasers: experiment, model, and power scaling［J］. J. Opt. Soc. Am. B, 2004, 21(12): 2151～2163