High Brightness, End-Pumped, Conduction Cooled Nd:YAG Zig-Zag Slab Laser Architecture

Stephen Palese; Joseph Harkenrider; William Long; Frank Chui; David Hoffmaster; William Burt; Hagop Injeyan; George Conway; Glen Truong; Francis Tapos

doi:10.1364/ASSL.2001.TuC4

Advanced Solid-State Lasers
OSA Trends in Optics and Photonics (Optica Publishing Group, 2001),
paper TuC4
•https://doi.org/10.1364/ASSL.2001.TuC4

High Brightness, End-Pumped, Conduction Cooled Nd:YAG Zig-Zag Slab Laser Architecture

Stephen Palese, Joseph Harkenrider, William Long, Frank Chui, David Hoffmaster, William Burt, Hagop Injeyan, George Conway, Glen Truong, and Francis Tapos

Advanced Solid State Lasers 2001

Seattle, Washington United States
ISBN: 1-55752-661-3

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S. Palese, J. Harkenrider, W. Long, F. Chui, D. Hoffmaster, W. Burt, H. Injeyan, G. Conway, G. Truong, and F. Tapos, "High Brightness, End-Pumped, Conduction Cooled Nd:YAG Zig-Zag Slab Laser Architecture," in Advanced Solid-State Lasers, C. Marshall, ed., Vol. 50 of OSA Trends in Optics and Photonics (Optica Publishing Group, 2001), paper TuC4.

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Abstract

A novel end-pumped, zig-zag, conduction cooled Nd:YAG slab architecture was implemented in both a master oscillator-power amplifier (MOPA) and power oscillator (PO) configuration. The MOPA laser utilized a passively mode-locked Nd:YAG laser as the source. The amplifier produced 150 W of linearly polarized power with an average M² of 1.25. The output (at 130 W) was frequency doubled in noncritically phase matched LBO to generate 66 W of green power with an average M² of 1.8. The PO utilized a stable/unstable resonator and a hyper-Gaussian reflectivity mirror to efficiently extract from the rectangular slab aperture. A continuous wave polarized output power of 380 W was extracted with 47% slope efficiency, an optical to optical efficiency of 34%, and an average M² of 1.8.

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