Liu Shi-Ming, Zhou Jin-Wen, Wu Yi-Wen, You You, Wan Zhong-Yi. OPTICALLY PUMPED CH3F AND D2O FIR PULSE LASER[J]. Journal of Electronics & Information Technology, 1983, 5(1): 49-53.
Citation:
Liu Shi-Ming, Zhou Jin-Wen, Wu Yi-Wen, You You, Wan Zhong-Yi. OPTICALLY PUMPED CH3F AND D2O FIR PULSE LASER[J]. Journal of Electronics & Information Technology, 1983, 5(1): 49-53.
Liu Shi-Ming, Zhou Jin-Wen, Wu Yi-Wen, You You, Wan Zhong-Yi. OPTICALLY PUMPED CH3F AND D2O FIR PULSE LASER[J]. Journal of Electronics & Information Technology, 1983, 5(1): 49-53.
Citation:
Liu Shi-Ming, Zhou Jin-Wen, Wu Yi-Wen, You You, Wan Zhong-Yi. OPTICALLY PUMPED CH3F AND D2O FIR PULSE LASER[J]. Journal of Electronics & Information Technology, 1983, 5(1): 49-53.
In this paper, the structure and the experimental results of a mirrorless FIR laser is described. A tunable TEA CO2 laser is used as its pumping source. Its output energy is about 1J at both 9R(22) and 9P(20) lines. Output energy of 0.5 mJ at =496m is obtained with CH3F molecular pumped by CO2 laser 9P(20) line; 1mJ =385m is obtained with D2O pumped by 9R(22) line. A thermopile and a Fanry-Perot interferometer are used to measure output energy and wavelength of FIR laser radiation respectively.
T. Y. Chang and T. J. Bridges, Opt. Commun. 1(1970), 423.[2]Dean T. Bodges, Infrared Physics, 18(1973), 375.[3]F. Keilmann, R. L. Sheffield, J. R. R.. Leite, M.S. Feid and. A. Javan, Appl. Phys. Lett. 26(1975), 19.[4]蒲汾,电子学通讯,3(1981), 35.[5]K. F. Real, and L. Genzel, Appl. Opt. 1(1962), 643.
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