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Proceedings Paper

Performance Comparisons Of Diode-Pumped Neodymium Laser Materials
Author(s): R. A . Fields; C. L. Fincher
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Paper Abstract

The performance of several Nd3+ doped laser materials were compared in a 1 watt diode-end-pumped configuration. The host materials included in this study were YVO4, YAG, BEL, Cr:GSGG, and LNA. Measurements were limited to laser performance on the 4F3/2-->4I11/2 transition. The predictive quality of traditional modelling was examined by generating detailed theoretical performance curves for all the materials. The best theoretical fit to the data was obtained by using cross section values deter-mined by the Birnbaum laser method and quantum efficiencies (QE) greater than 94% for all the materials except BEL and Cr:GSGG. The low QE for Cr:GSGG can be traced to excited state absorption into the Cr bands. bands. Uncertainty in the fit relates to the tradeoff between QE and loss. A performance comparison between coated and uncoated YAG suggests that surface losses contribute more than expected. The data and the model indicate that all materials studied here (except for Cr:GSGG) should display approximately a 55% or greater slope efficiency (optical-to-optical) above 1 watt of pump power if fabricated with a monolithic high reflector and antireflective coating at the appropriate faces. Based on projections from the model and data from the literature LNA has the potential to be a high efficiency and energy storage laser. Utilizing a new 2 watt 20 stripe diode laser array, 1.22 watts at an optical efficiency of 61% was obtained at 1064 nm in the TEM00 from a Nd:YVO4 crystal.

Paper Details

Date Published: 25 September 1989
PDF: 6 pages
Proc. SPIE 1104, Growth, Characterization, and Applications of Laser Host and Nonlinear Crystals, (25 September 1989); doi: 10.1117/12.960605
Show Author Affiliations
R. A . Fields, Aerospace Corporation (United States)
C. L. Fincher, Aerospace Corporation (United States)

Published in SPIE Proceedings Vol. 1104:
Growth, Characterization, and Applications of Laser Host and Nonlinear Crystals
Jui Teng Lin, Editor(s)

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