Factors influencing the relative frequency stabiltiy of He–Ne laser structures
- 1 November 1974
- journal article
- research article
- Published by AIP Publishing in Review of Scientific Instruments
- Vol. 45 (11) , 1378-1381
- https://doi.org/10.1063/1.1686506
Abstract
6328 Å He–Ne laser structures, made from ultralow expansion materials, suspended in temperature‐ and pressure‐controlled chambers, have shown drift rates in excess of +5 MHz/day. The same structure, evacuated and used as passive Fabry‐Perot resonators, suspended in the previous now evacuated chambers, still show a drift rate of the order of +2 MHz/day. Computer simulated mirrormodelaging shows that relatively large changes of the dielectric constants of the mirrorcoatings are needed to explain the measured drift. We feel that the dimensional stability of the materials and the properties of the optical contacts used, as well as the behavior of the dielectric mirrors, have to be more carefully investigated.Keywords
This publication has 6 references indexed in Scilit:
- Description, Performance, and Wavelengths of Iodine Stabilized LasersApplied Optics, 1973
- Optical Coupling Effects in Frequency Stabilized LasersApplied Optics, 1972
- Relative frequency stability of stable He-Ne gas laser structuresIEEE Journal of Quantum Electronics, 1971
- Pressure shifts in a stabilized single wave-length helium-neon laserProceedings of the IEEE, 1966
- Cold Cathodes for Possible Use in 6328 Å Single Mode He-Ne Gas LasersReview of Scientific Instruments, 1965
- Dispersion in Electrically Excited GasesReviews of Modern Physics, 1933