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

[2] Page R H, Beach R J, Kanz V K, et al. Multimode-diode-pumped gas (alkali-vapor) laser[J]. Opt Lett， 2006, 31(3):353-355.

[3] Zweiback J, Komashko A. High-energy transversely pumped alkali vapor laser[C]Proc of SPIE. 2011: 791509.

[4] Krupke W F, Beach R J, Kanz V K, et al. New class of CW high-power diode-pumped alkali lasers (DPALs)[C]Proc of SPIE. 2004, 5448:7-17.

[5] Yang Zining, Wang Hongyan, Lu Qisheng, et al. Theoretical model and novel numerical approach of a broadband optically pumped three-level alkali vapor laser[J]. J Phys B: At Mol Opt Phys, 2011, 44:085401.

[6] 杨子宁，王红岩，陆启生，等.光谱特性对半导体泵浦碱蒸气激光器性能的影响[J].强激光与粒子束， 2010, 22(10):2257-2262.(Yang Zi-ning, Wang Hongyan, Lu Qisheng, et al. Influence of spectrum characteristics on diode pumped alkali laser. High Power Laser and Particle Beams, 2010,22(10):2257-2262)

[7] High-energy lasers in line for budget increase[OL]. 2011. http://optics.org/news/2/2/19.

[8] 杨子宁，王红岩，陆启生，等.半导体抽运碱金属蒸气激光器研究进展[J].激光与光电子学进展， 2010, 47:051603.(Yang Zining, Wang Hongyan, Lu Qisheng, et al. Research development of laser diode pumped alkali lasers. Laser and Optoelectronics Progress, 2010, 47:051603)

[9] Hecht J. A new generation of laser weapons is born[J]. Laser Focus World, 2010, 46(4):36-39.

[10] Hecht J. Alkali-vapor lasers: Diode pumping enables a new approach to alkali-vapor lasers[J]. Laser Focus World, 2011, 04.

[11] Podvyazny A, Venus G, Smirnov V, et al. 250 W diode laser for low pressure Rb vapor pumping[C]Proc of SPIE. 2010:758313.

[12] Zweiback J, Krupke B. Rubidium and potassium alkali lasers[C]Proc of SPIE. 2009:71960E.

[13] Readle J D. Atomaticalkali lasers pumped by the dissociation of photoexcited alkali-rare gas collision pairs[D]. Urbana-Champaign: University of Illinois, 2010.

[14] Readle J D, Eden J G, Verdeyen J T, et al. Four level atomic Cs laser at 852.1 nm with a quantum efficiency above 98%: Observation of three body photoassociation[J]. Appl Phys Lett, 2010,97:021104.

[15] York G, Gallagher A. High power gas laser on alkali-dimer A-X band radiation[J]. JILA, Tech Rep, 1974, 114.

[16] Phelps A V. Tunable gas laser utilizing ground state dissociation[J]. JILA, Tech Rep, 1972, 110.

[17] Ch’en S Y, Takeo M. Broadening and shift of spectral lines due to the presence of foreign gases[J]. Rev Mod Phys， 1957, 29(1):20-73.

[18] Readle J D, Wagner C J, Verdeyen J T, et al. Lasing in Cs at 894.3 nm pumped by the dissociation of Cs-Ar excimers[J]. Electron Lett, 2008, 44(25):1466-1467.

[19] Hedges R E M, Drummond D L, Gallagher A. Extreme-wing line broadening and Cs-inert-gas potential[J]. Phys Rev A, 1972, 6(4):1519-1544.

[20] Chen C L, Phelps A V. Absorption coefficients for the wings of the first two resonance doublets of cesium broadened by argon[J]. Phys Rev A, 1973, 7(2):470-479.

[21] Readle J D, Verdeyen J T, Eden J G, et al. Cs 894.3 nm laser pumped by photoassociation of Cs-Kr pairs: Excitation of the Cs D2 blue and red satellites[J]. Opt Lett, 2009, 34(23):3638-3640.

[22] Pascale J, Vandeplanque J. Excited molecular terms of the alkali-rare gas atom pairs[J]. J Chem Phys, 1974, 60(6):2278-2289.

[23] Galbally-Kinney K L, Kessler W J, Rawlins W T, et al. Spectroscopic studies of alkali atom-rare gas systems[C]High Energy/Average Power Lasers and Intense Beam Applications V SPIE Photonics West. 2010.

[24] Davis S J, Galbally-Kinney K L, Kessler W J, et al. Dynamics of alkali atom excitation and population inversion in optically pumped rare-gas exciplex systems[C] //Annual Directed Energy Symposium, 2010.

[25] Palla A D, Carroll D L, Verdeyen J T, et al. Multi-dimensional modeling of the XPAL system[C]Proc of SPIE. 2010:75810L.

[26] Readle J D, Wagner C J, Verdeyen J T, et al. Pumping of atomic alkali lasers by photoexcitation of a resonance line blue satellite and alkali-rare gas excimer dissociation[J]. Appl Phys Lett, 2009, 94:251112.

[27] PallaA D, Carroll D L, Verdeyen J T, et al. Multi-dimensional modeling of the XPAL system[C]41st Plasmadynamics and Lasers Conference. 2010.

[28] PallaA D, Carroll D L, Verdeyen J T, et al. XPAL modeling and theory[C] //Proc of SPIE. 2011:79150B.

[29] MerrittJ M, Han J, Chang T, et al. Theoretical investigations of alkali metal-rare gas interaction potentials[C]Proc of SPIE. 2009:71960H.

[30] Heaven M C, Stolyarov A V. Potential energy curves for alkali metal - rare gas exciplex lasers[C]41st Plasmadynamics and Lasers Conference. 2010.

[31] Blank L A, Kedziora G S, Weeks D E. Potential energy surfaces for alkali plus noble gas pairs-a systematic comparison[C]Proc of SPIE. 2010:75810I.