Programmable laser frequency stabilization at 1523 nm by use of persistent spectral hole burning
Author:
Publisher
The Optical Society
Subject
Atomic and Molecular Physics, and Optics
Reference14 articles.
1. Laser frequency stabilization using regenerative spectral hole burning
2. Laser stabilization at 1536 nm using regenerative spectral hole burning
3. Diode laser frequency stabilization to transient spectral holes and spectral diffusion in Er3+:Y2SiO5 at 1536nm
4. Semiconductor lasers stabilized to spectral holes in rare earth crystals to a part in 1013 and their application to devices and spectroscopy
5. Programmable frequency reference for subkilohertz laser stabilization by use of persistent spectral hole burning
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1. Controlled multiple spectral hole burning via a tripod-type atomic medium;New Journal of Physics;2024-01-01
2. Microscopic model of spin flip-flop processes in crystals doped by rare-earth ions;Physical Review B;2022-11-28
3. Burning and reading ensembles of spectral holes by optical frequency combs: Demonstration in rare-earth-doped solids and application to laser frequency stabilization;Physical Review A;2021-12-13
4. Continuum and undefine hole burning regions via pulse propagation in a four-level Doppler broadened atomic system;The European Physical Journal Plus;2020-09
5. Research and Development on Laser Frequency Stabilization Based on Spectral Hole-Burning Effect;Laser & Optoelectronics Progress;2019
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