Nd:GdVO4 in face-cooled geometries: Thin-disk and high-power microchip lasers

A. Kemp; G.J. Valentine; D. Burns

Nd:GdVO4 in face-cooled geometries: Thin-disk and high-power microchip lasers

A. Kemp, G.J. Valentine, D. Burns

Research output: Contribution to journal › Article

Abstract

The potential of Nd:GdVO4 for face-cooled geometries is discussed. Particular emphasis is given to experimental and finite element studies of thin-disk and high-power, monolithic, microchip geometries. Efficient laser operation is reported.

Original language	English
Pages (from-to)	Vol 98
Journal	Trends in Optics and Photonics
Volume	98
Publication status	Published - 2005

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Keywords

lasers
photonics
optics

Cite this

Kemp, A., Valentine, G. J., & Burns, D. (2005). Nd:GdVO4 in face-cooled geometries: Thin-disk and high-power microchip lasers. Trends in Optics and Photonics, 98, Vol 98.

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abstract = "The potential of Nd:GdVO4 for face-cooled geometries is discussed. Particular emphasis is given to experimental and finite element studies of thin-disk and high-power, monolithic, microchip geometries. Efficient laser operation is reported.",

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AU - Kemp, A.

AU - Valentine, G.J.

AU - Burns, D.

PY - 2005

Y1 - 2005

N2 - The potential of Nd:GdVO4 for face-cooled geometries is discussed. Particular emphasis is given to experimental and finite element studies of thin-disk and high-power, monolithic, microchip geometries. Efficient laser operation is reported.

AB - The potential of Nd:GdVO4 for face-cooled geometries is discussed. Particular emphasis is given to experimental and finite element studies of thin-disk and high-power, monolithic, microchip geometries. Efficient laser operation is reported.

KW - lasers

KW - photonics

KW - optics

UR - http://www.osa.org/meetings/archives/2005/ASSP/ASSP_2005_Final_Archive.pdf

M3 - Article

VL - 98

SP - Vol 98

JO - Trends in Optics and Photonics

JF - Trends in Optics and Photonics

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Access to Document

http://www.osa.org/meetings/archives/2005/ASSP/ASSP_2005_Final_Archive.pdf