A Solid State Raman Laser for Sodium D2 Line Resonant Excitation

E. C. Cheung; J. G. Ho; H. Injeyan; M. M. Valley; J. G. Berg; R. L. Byer; Y. Huang

doi:10.1364/ADOP.1996.AMB.25

Adaptive Optics
Technical Digest Series (Optica Publishing Group, 1996),
paper AMB.25
•https://doi.org/10.1364/ADOP.1996.AMB.25

A Solid State Raman Laser for Sodium D₂ Line Resonant Excitation

E. C. Cheung, J. G. Ho, H. Injeyan, M. M. Valley, J. G. Berg, R. L. Byer, and Y. Huang

Adaptive Optics 1996

Hawaii United States
8–12 July 1996
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E. C. Cheung, J. G. Ho, H. Injeyan, M. M. Valley, J. G. Berg, R. L. Byer, and Y. Huang, "A Solid State Raman Laser for Sodium D2 Line Resonant Excitation," in Adaptive Optics, Technical Digest Series (Optica Publishing Group, 1996), paper AMB.25.

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Abstract

A reliable, cost-effective sodium resonance source is needed for mesospheric sodium excitation in adaptive optics applications [1-2]. Previous approaches include a dye laser pumped by a green source and systems with nonlinear frequency conversion [3,4]. This paper presents a new, all solid-state source [5], which can be scaled to over 100 W in average power at 589 nm. In this approach, a 1064 nm Nd:YAG laser pumps a CaWO₄Raman laser with an intra-cavity doubler (Fig. 1). Alignment of the frequency conversion system is relatively simple because the Raman process requires no phase matching, and the doubling crystal is non-critically phase matched LBO.

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