Single-frequency diode-pumped Nd:YAG prism laser with use of a composite laser crystal

Christian Pedersen; Peter Lichtenberg Hansen; Preben Buchhave; Torben Skettrup

doi:10.1364/AO.36.006780

Applied Optics
Vol. 36,
Issue 27,
pp. 6780-6787
(1997)
•https://doi.org/10.1364/AO.36.006780

Single-frequency diode-pumped Nd:YAG prism laser with use of a composite laser crystal

Christian Pedersen, Peter Lichtenberg Hansen, Preben Buchhave, and Torben Skettrup

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Christian Pedersen, Peter Lichtenberg Hansen, Preben Buchhave, and Torben Skettrup, "Single-frequency diode-pumped Nd:YAG prism laser with use of a composite laser crystal," Appl. Opt. 36, 6780-6787 (1997)

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Abstract

A compact, stable, diode-pumped Nd:YAG laser suitable for high-power single-frequency operation is investigated theoretically as well as experimentally. Residual spatial hole burning has been eliminated with a unidirectional ring-laser design with a specially designed intracavity prism and a composite YAG laser crystal. A detailed Jones matrix analysis is performed, leading to design criteria for high loss difference and high-frequency stability.

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Equations (9)

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Parameter	Value
θ	2°
φ	6.4°
l_YAG	6.35 mm
B	1 T
t_s⁴	0.76
t_p⁴	1.00

Parameter	Value (deg)
θ_rec	17.40
θ₂₃	17.66
θ_rec	0.53
θ_F	1.31

Laser	Loss for Laser Mode (%)	Loss Difference (%)	Detuning Loss (%)
Prism laser	0.15	0.65	0
NPRO	0	0.01	6.2

Parameter	Value
θ	2°
φ	6.4°
l_YAG	6.35 mm
B	1 T
t_s⁴	0.76
t_p⁴	1.00

Parameter	Value (deg)
θ_rec	17.40
θ₂₃	17.66
θ_rec	0.53
θ_F	1.31

Abstract

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Figures (11)

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Equations (9)

Applied Optics