Optical distortions in end-pumped zigzag slab lasers

Bing Tang; Tangjian Zhou; Dan Wang; Mi Li

doi:10.1364/AO.54.002693

Applied Optics
Vol. 54,
Issue 10,
pp. 2693-2702
(2015)
•https://doi.org/10.1364/AO.54.002693

Optical distortions in end-pumped zigzag slab lasers

Bing Tang, Tangjian Zhou, Dan Wang, and Mi Li

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Bing Tang, Tangjian Zhou, Dan Wang, and Mi Li, "Optical distortions in end-pumped zigzag slab lasers," Appl. Opt. 54, 2693-2702 (2015)

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Abstract

Ray tracing is performed to investigate the optical distortions in the end-pumped, zigzag slab. Optical path differences caused by temperature, slab deformation, and stress birefringence are calculated under uniform pumping; the results show a steep edge in the width dimension and a thermal lens with an effective focal length as short as several meters in the thickness dimension. Dependence of depolarization on total internal reflection phase retardance as well as the slab’s cut angle is studied by the Jones matrix technique; results show that although at the pumping power of 10 kW, the mean depolarization of the $2.5 mm \times 30 mm \times 150.2 mm$ Nd:YAG slab is generally below 3%, and it increases rapidly with pumping power. Besides, for the 0°- or 60°-cut slab, an optimal phase retardance range of 5° to 13° exists, in which the depolarization loss can be lower than 0.5%. Finally, experiments on temperature and depolarization measurements verify the numerical results.

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Equations (30)

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Parameter	Value	Source
Density ( ${gcm}^{- 3}$ )	4.56	[16]
Specific heat ( ${Jg}^{- 1} K^{- 1}$ )	0.6	[16]
Thermal conductivity ( ${Wcm}^{- 1} K^{- 1}$ )	0.13	[16]
$\partial n / \partial T (\times 10^{- 6} K^{- 1})$	9	[17]
Elastic modulus (GPa)	300	[16]
Poisson’s ratio	0.25	[16]
Expansion coefficient ( $\times 10^{- 6} K^{- 1}$ )	7	[17]

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Applied Optics