Bertrand Morbieu scite author profile

In this paper, we report our recent progress towards a solid-state ring laser gyroscope (RLG), where mode competition is circumvented by active control of differential losses, and nonlinear effects are mitigated by longitudinal vibration of the gain medium. The resulting dynamics is significantly different from that of a classical helium-neon RLG, owing in particular to parametric resonances that occur when the Sagnac frequency is an integer multiple of the crystal vibration frequency. We describe the main experimental and theoretical results obtained so far, and the prospects of practical applications in the near future.Published by Elsevier Masson SAS on behalf of Académie des sciences.r é s u m é Nous décrivons dans cet article nos récents progrès vers la réalisation d'un gyrolaser à état solide. Dans ce dispositif, le problème de la compétition entre modes est résolu par un contrôle actif des pertes différentielles, et les effets non linéaires sont fortement atténués par la mise en vibration du milieu à gain. La dynamique d'un tel système est significativement différente de celle d'un gyrolaser à hélium-néon classique, en particulier à cause des résonances paramétriques qui surviennent lorsque la fréquence Sagnac est un multiple entier de la fréquence de vibration du cristal. Nous décrivons les principaux résultats expérimentaux et théoriques obtenus jusqu'ici et discutons les perspectives d'applications pratiques à court et moyen termes. Published by Elsevier Masson SAS on behalf of Académie des sciences.

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Bertrand Morbieu

Airspeed Measurement With A CO 2 Lidar

<title>TN-LCD viewing angle compensation with holographic volume gratings</title>

An online compensation algorithm for improving the performance of gas Ring Laser Gyroscopes

Aerosol Backscatter Measurements At 10 µm Using A CO 2 Laser Anemometer Developed For Aircraft Certification

Towards a solid-state ring laser gyroscope

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