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24 April 2001 Locking and laser-frequency tracking of a microsphere whispering-gallery mode
Jeromy P. Rezac, Albert T. Rosenberger
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Proceedings Volume 4270, Laser Resonators IV; (2001) https://doi.org/10.1117/12.424662
Event: Photonics West 2001 - LASE, 2001, San Jose, CA, United States
Abstract
We report advances in compression tuning of fused-silica microsphere whispering-gallery resonances and a practical use of the improved compression tuner. The advances include extending the tuning range and enhancing the tuner’s response speed; these lead to the new application of using the tuner to lock to a laser, keeping a single whispering-gallery mode on resonance as the laser frequency is scanned. The resonance frequency of the mode to be locked is weakly modulated by axial compression of the microsphere, and phase-sensitive detection of the fiber-coupled optical throughput is used for locking. Using a laser wavelength of either 1570 nm or 830 nm, we demonstrate a locked tracking range exceeding 30 GHz for a microsphere of 120 GHz free spectral range. The improved tuner design that makes this application possible allows coarse tuning over 1 THz and piezoelectric tuning over 80 GHz. Compression modulation rates of up to 13 kHz have also been achieved with this tuner, producing a tuning speed of at least 16 GHz/ms.
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Jeromy P. Rezac and Albert T. Rosenberger "Locking and laser-frequency tracking of a microsphere whispering-gallery mode", Proc. SPIE 4270, Laser Resonators IV, (24 April 2001); https://doi.org/10.1117/12.424662
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KEYWORDS
Ferroelectric materials
Modulation
Optical spheres
Laser stabilization
Polarization
Signal detection
Fiber lasers
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