Compact, high gain, hetero-composite Nd:YVO₄/SiC thin disk amplifier with advanced thermal management

Author

Newburgh, G.A. ; Dubinskii, M.

Author_Institution

US Army Res. Lab., Adelphi, MD, USA

Volume

50

Issue

16

fYear

2014

fDate

July 31 2014

Firstpage

1152

Lastpage

1153

Abstract

A thermally advanced, Nd:YVO₄ amplifier at 1064 nm based on an 800 μm-thick Nd:YVO₄ gain layer bonded to a silicon carbide (SiC) prism is demonstrated. The amplifier was tested in the `master oscillator-power amplifier´ configuration, where both the seed source and the amplifier were operated in a quasi-continuous-wave regime. The hetero-composite Nd:YVO₄/SiC gain element pumped by an 808 nm laser diode bar stack amplified the seed power in a range of 1-55 W with a gain of 4-2.6, respectively. The temperature profile of the gain element measured by a thermal camera indicated the maximum observed temperature excursion at pump saturation intensity to be only 27°C.

Keywords

neodymium; optical pumping; optical saturation; silicon compounds; solid lasers; thermal management (packaging); yttrium compounds; SiC; YVO₄:Nd-SiC; advanced thermal management; heterocomposite Nd:YVO₄/SiC thin disk amplifier; laser diode bar stack pumping; master oscillator-power amplifier configuration; power 1 W to 55 W; pump saturation intensity; quasicontinuous wave regime; silicon carbide prism; size 800 mum; temperature 27 degC; temperature profile; thermal camera; wavelength 1064 nm; wavelength 808 nm;

fLanguage

English

Journal_Title

Electronics Letters

Publisher

iet

ISSN

0013-5194

Type

jour

DOI

10.1049/el.2014.1900

Filename

6870608

Compact, high gain, hetero-composite Nd:YVO4/SiC thin disk amplifier with advanced thermal management

Newburgh, G.A. ; Dubinskii, M.

jour

Compact, high gain, hetero-composite Nd:YVO₄/SiC thin disk amplifier with advanced thermal management