Loss Lock-In in the Ring Laser
- 1 May 1970
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 41 (6) , 2453-2456
- https://doi.org/10.1063/1.1659243
Abstract
In the ring laser, frequency synchronization between the oppositely directed traveling waves is usually attributed to mutual coupling by the mechanism of the backscattering of energy from each of the beams into the direction of the other. A new type of coupling is introduced where the standing wave state is shown to have less losses than the traveling wave state for rotations rates less than some critical lock-in threshold. The coupling mechanism is spacially varying losses over the cavity length. The minimum loss condition is also shown to determine the location of the nodes of the standing waves. In certain cases, lock-in thresholds due to nonuniform losses are shown to have the potential of being a few orders-of-magnitude greater than thresholds attributed to backscattering.This publication has 12 references indexed in Scilit:
- Ring-Laser Mode CouplingPhysical Review B, 1969
- Development of a Ring Laser for Polarimetric MeasurementsApplied Optics, 1967
- Phase-Locking of Laser Oscillators by Injected SignalJournal of Applied Physics, 1967
- DERIVATION OF THE RELATION BETWEEN TWO WEAKLY COUPLED NONLINEAR OPTICAL OSCILLATORSApplied Physics Letters, 1966
- MODE COUPLING DUE TO BACKSCATTERING IN A He–Ne TRAVELING-WAVE RING LASERApplied Physics Letters, 1966
- Theory of a Traveling-Wave Optical MaserPhysical Review B, 1965
- Theory of an Optical MaserPhysical Review B, 1964
- Resonant Frequencies of an Electromagnetic Cavity in an Accelerated System of ReferencePhysical Review B, 1964
- ROTATION RATE SENSING WITH TRAVELING-WAVE RING LASERSApplied Physics Letters, 1963
- The Nonlinear Theory of Electric OscillationsProceedings of the IRE, 1934