Solid-state ring laser gyro behaving like its helium-neon counterpart at low rotation rates

Sylvain Schwartz; François Gutty; Gilles Feugnet; Éric Loil; Jean Paul Pocholle

doi:10.1364/OL.34.003884

Solid-state ring laser gyro behaving like its helium-neon counterpart at low rotation rates

Sylvain Schwartz, François Gutty, Gilles Feugnet, Éric Loil, Jean Paul Pocholle

Research output: Contribution to journal › Article › peer-review

Abstract

Nonlinear couplings induced by crystal diffusion and spatial inhomogeneities of the gain have been suppressed over a broad range of angular velocities in a solid-state ring laser gyro by vibrating the gain crystal at 168 kHz and 0.4 μm along the laser cavity axis. This device behaves in the same way as a typical heliumneon ring laser gyro, with a zone of frequency lock-in (or dead band) resulting from the backscattering of light on the cavity mirrors. Furthermore, it is shown that the level of angular random-walk noise in the presence of mechanical dithering depends only on the quality of the cavity mirrors, as is the case with typical helium-neon ring laser gyros.

Original language	English
Pages (from-to)	3884-3886
Number of pages	3
Journal	Optics Letters
Volume	34
Issue number	24
DOIs	https://doi.org/10.1364/OL.34.003884
Publication status	Published - 15 Dec 2009
Externally published	Yes

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title = "Solid-state ring laser gyro behaving like its helium-neon counterpart at low rotation rates",

abstract = "Nonlinear couplings induced by crystal diffusion and spatial inhomogeneities of the gain have been suppressed over a broad range of angular velocities in a solid-state ring laser gyro by vibrating the gain crystal at 168 kHz and 0.4 μm along the laser cavity axis. This device behaves in the same way as a typical heliumneon ring laser gyro, with a zone of frequency lock-in (or dead band) resulting from the backscattering of light on the cavity mirrors. Furthermore, it is shown that the level of angular random-walk noise in the presence of mechanical dithering depends only on the quality of the cavity mirrors, as is the case with typical helium-neon ring laser gyros.",

author = "Sylvain Schwartz and Fran{\c c}ois Gutty and Gilles Feugnet and {\'E}ric Loil and Pocholle, \{Jean Paul\}",

year = "2009",

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day = "15",

doi = "10.1364/OL.34.003884",

language = "English",

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journal = "Optics Letters",

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T1 - Solid-state ring laser gyro behaving like its helium-neon counterpart at low rotation rates

AU - Schwartz, Sylvain

AU - Gutty, François

AU - Feugnet, Gilles

AU - Loil, Éric

AU - Pocholle, Jean Paul

PY - 2009/12/15

Y1 - 2009/12/15

N2 - Nonlinear couplings induced by crystal diffusion and spatial inhomogeneities of the gain have been suppressed over a broad range of angular velocities in a solid-state ring laser gyro by vibrating the gain crystal at 168 kHz and 0.4 μm along the laser cavity axis. This device behaves in the same way as a typical heliumneon ring laser gyro, with a zone of frequency lock-in (or dead band) resulting from the backscattering of light on the cavity mirrors. Furthermore, it is shown that the level of angular random-walk noise in the presence of mechanical dithering depends only on the quality of the cavity mirrors, as is the case with typical helium-neon ring laser gyros.

AB - Nonlinear couplings induced by crystal diffusion and spatial inhomogeneities of the gain have been suppressed over a broad range of angular velocities in a solid-state ring laser gyro by vibrating the gain crystal at 168 kHz and 0.4 μm along the laser cavity axis. This device behaves in the same way as a typical heliumneon ring laser gyro, with a zone of frequency lock-in (or dead band) resulting from the backscattering of light on the cavity mirrors. Furthermore, it is shown that the level of angular random-walk noise in the presence of mechanical dithering depends only on the quality of the cavity mirrors, as is the case with typical helium-neon ring laser gyros.

U2 - 10.1364/OL.34.003884

DO - 10.1364/OL.34.003884

M3 - Article

AN - SCOPUS:72649102596

SN - 0146-9592

VL - 34

SP - 3884

EP - 3886

JO - Optics Letters

JF - Optics Letters

IS - 24

ER -

Solid-state ring laser gyro behaving like its helium-neon counterpart at low rotation rates

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