Preliminary experiment for stabilizing unmodulated He-Ne laser to an iodine hyperfine component

1 January 1979

journal article
research article
Published by AIP Publishing in Journal of Applied Physics

Vol. 50 (1) , 38-40
https://doi.org/10.1063/1.325676

Abstract

First‐ and third‐derivative signals of saturated absorption in iodine 127 molecular vapor are detected by using a frequency‐modulated 190‐cm‐long 633‐nm He‐Ne laser with a Fox‐Smith–type resonator and an iodine absorption cell which is set outside of the resonator. Aiming to stabilize the laser with unmodulated output, a retroreflector‐type optical modulator is added to the above system, and the first‐derivative signal is obtained by external modulation. Comparing the obtained signal with those obtained by the frequency‐modulated laser, possibilities to detect the third‐derivative signal by using the optical modulator and to stabilize the unmodulated laser are found.

This publication has 11 references indexed in Scilit:

Stabilization of a Complex Resonator He–Ne Laser
Japanese Journal of Applied Physics, 1978
Hyperfine structure in the electronic spectrum of 127I2 by saturated absorption spectroscopy at 633 nm
Applied Physics Letters, 1978
Frequency Stability and Reproducibility of an Iodine Stabilized He–Ne Laser
Japanese Journal of Applied Physics, 1977
Performance of Methane-Stabilized Lasers with the Method of Saturated Absorption
Japanese Journal of Applied Physics, 1976
Frequency stabilization of the helium-neon laser by saturated absorption in iodine vapour
Journal of Physics E: Scientific Instruments, 1972
Method for Stabilizing the Frequency of an Unmodulated Laser Output*
Journal of the Optical Society of America, 1972
DOPPLER JITTER STABILIZATION OF A CO2 LASER
Applied Physics Letters, 1971
Pressure Shift and Broadening of Methane Line at 3.39 $μ$ Studied by Laser-Saturated Molecular Absorption
Physical Review Letters, 1969
I₂Controlled He-Ne Laser at 633 nm: Preliminary Wavelength
Metrologia, 1969
Absolute frequency stabilization of the 3.39-μm laser on a CH₄ line
IEEE Transactions on Instrumentation and Measurement, 1968