[1] |
SANG F T, JIN Y Q, FANG B J, et al. Chemical oxygen iodine lasers [M]. Beijing: National Defense Industry Press, 2015: 1-11 (in Chinese). |
[2] |
LIU X X, HAN J H, CAI H, et al. Review of high repetition-rate mid-infrared lasers for photoelectric countermeasures [J]. Laser Technology, 2021, 45(3): 271-279 (in Chinese). |
[3] |
YI H Y, SUO X W, YI X Y, et al. Development of AC-130J AHEL system[J]. Laser Technology, 2021, 45(2): 174-181 (in Chinese). |
[4] |
QI Y, YI H Y, HUANG J J, et al. Research development and technological challenge of alkali laser with high power [J]. Laser & Optoelectronic Progress, 2021, 58(7): 0700003 (in Chinese). |
[5] |
KRUPKE W F. Diode pumped alkali lasers (DPALs)-A review (revl) [J]. Progress in Quantum Electronics, 2012, 36(1): 4-28. doi: 10.1016/j.pquantelec.2011.09.001 |
[6] |
ZHDANOV B V, KNIZE R J. Review of alkali laser research and development [J]. Optical Engineering, 2013, 52(2): 021010. |
[7] |
CAI H, WANG Y, HAN J H, et al. Reviews of a diode-pumped alkali laser (DPAL): A potential high powered light source [J]. Proceedings of the SPIE, 2014, 9521: 95211U. |
[8] |
ZHAO X F, YANG Z N, HUA W H, et al. Ionization degree measurement in the gain medium of a hydrocarbon-free rubidium vapor laser operating in pulsed and CW modes [J]. Optics Express, 2017, 25(8): 9458-9470. doi: 10.1364/OE.25.009458 |
[9] |
MARKOSYAN A H, KUSHNER M J. Plasma formation in diode pumped alkali lasers sustained in Cs [J]. Journal of Applied Physics, 2016, 120(19): 193105. doi: 10.1063/1.4967749 |
[10] |
ZUO L. Study on ionization progress in diode pumped rubidium vapor laser gain medium [D]. Changsha: Graduate School of National University of Defense Technology, 2014: 1-47 (in Chinese). |
[11] |
BARBIER L, CHERET M. Energy pooling process in rubidium vapor [J]. Journal of Physics, 1983, B16(17): 3213-3228. |
[12] |
CHERET M, BARBIER L, LINDINGER W, et al. Penning and associative ionisation of highly excited rubidium atoms[J]. Journal of Physics, 1982, B15(19): 3463-3477. |
[13] |
JABBOUR Z J, NAMIOTKA R K, HUENNEKENS J. Energy-pooling collisions in cesium: 6PJ+6PJ→6S+ (nl=7P, 6D, 8S, 4F) [J]. Physical Review, 1996, A54(2): 1372-1384. |
[14] |
WU S S Q. Hydrocarbon-free resonance transition 795nm rubidium laser [D]. San Diego, USA: University of California, 2009: 1-113. |
[15] |
KNIZE R J, ZHDANOV B B, SHAFFER M K. Photoionization in alkali lasers [J]. Optics Express, 2011, 19(8): 7894-7902. doi: 10.1364/OE.19.007894 |
[16] |
OLIKER B Q, HAIDUCEK J D, HOSTUTLER D A, et al. Simulation of deleterious processes in a static-cell diode pumped alkali laser [J]. Proceedings of the SPIE, 2014, 8962: 89620B. |
[17] |
WAICHMAN K, BARMASHENKO B D, ROSENWAKS S. Computational fluid dynamics modeling of subsonic flowing-gas diode-pumped alkali lasers: Comparison with semi-analytical model calculations and with experimental results [J]. Journal of the Optical Society of America, 2014, B31(11): 2628-2637. |
[18] |
BARMASHENKO B D, ROSENWAKS S. Detailed analysis of kinetic and fluid dynamic processes in diode-pumped alkali lasers [J]. Journal of the Optical Society of America, 2013, B30(5): 118-1126. |
[19] |
WAICHMAN K, BARMASHENKO B D, ROSENWAKS S. CFD DPAL modeling for various schemes of flow configurations [J]. Proceedings of the SPIE, 2014, 9251: 92510U. |
[20] |
GE L, HUA W H, WANG H Y, et al. Study on photoionization in a rubidium diode-pumped alkali lasers gain medium with the optogalvanic method [J]. Optical Letters, 2013, 38(2): 199-201. |
[21] |
YANG Z N, ZUO L, HUA W H, et al. Experimental measurement of ionization degree in diode-pumped rubidium laser gain medium [J]. Optical Letters, 2014, 39(22): 6501-6504. |
[22] |
STECK D A. Cesium D line data [DB/OL]. (2021-09-28). https://steck.us/alkalidata/cesium numbers.1.6.pdf. |
[23] |
ZHOU Q T, WEI J, XU Z P. Influence of noise feature on multiple sampling, accumulation and averaging technology [J]. Infrared and Laser Engineering, 2010, 39(5): 959-962(in Chinese). |
[24] |
MOU H D. Study on ionization diagnosis on hydrocarbon-free diode pumped rubidium vapor laser [D]. Changsha: Graduate School of National University of Defense Technology, 2016: 1-61(in Chinese). |