Far infrared difference frequency generation

N. P. Barnes; R. A. Nickle; P. N. Mace

doi:10.1364/CLEOS.1976.THD8

Conference on Laser and Electrooptical Systems
Technical Digest Series (Optica Publishing Group, 1976),
paper THD8
•https://doi.org/10.1364/CLEOS.1976.THD8

Far infrared difference frequency generation

N. P. Barnes, R. A. Nickle, and P. N. Mace

Conference on Laser and Electrooptical Systems 1976

San Diego, Calif. United States
25–27 May 1976
ISBN:

From the session
Fusion: 3, and Isotope Separation (THD)

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N. P. Barnes, R. A. Nickle, and P. N. Mace, "Far infrared difference frequency generation," in Conference on Laser and Electrooptical Systems, Technical Digest Series (Optica Publishing Group, 1976), paper THD8.

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Abstract

One method of laser isotope separation requires a far FIR, nearly monochromatic source of radiation having an energy per pulse on the order of tens of microjoules. An attractive method of producing this required energy is difference frequency generation using a CO and a CO₂ laser as sources.¹,² The difference frequency generation could occur in a nonlinear material such as CdGeAs₂ or AgGaSe₂. The engineering development of the lasers and the results obtained from second harmonic generation as well as difference frequency generation experiments are described. The major emphasis in the development of the CO laser was the increase in the peak power. However, the major emphasis in the development of the CO₂ laser was the attainment of consistently good spatial and temporal mode quality.

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