Frequency Stabilization of Ar+ Lasers by Saturated Absorption in External 127I2 Cells (at 582 THz)
- 1 December 1978
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Instrumentation and Measurement
- Vol. 27 (4), 398-400
- https://doi.org/10.1109/tim.1978.4314721
Abstract
The frequency of commercial Ar+ lasers at 582 THz was stabilized by an external device mainly consisting of a 127I2 cell, two photodetectors, an electronic divider, and a conventional servo loop, using the 3f locking technique. The symmetry of the 3f signals was tested by two methods. In the neighborhood of the central zero crossing at separations of up to ±300 kHz no asymmetry could be detected within 4 × 10-13 v. The stabilized frequency-being independent of the modulation width-is reproducible to better than ±2 × 10-11 v. From the small dependence of the frequency on the I2 vapor pressure of -5 kHz/Pa an uncertainty of less than ±4 × 10-11 v is assumed. Thus the selected 127I2 lines at v = 582 THz/λ = 515 nm should be promising candidates as optical frequency or wavelength standards.Keywords
This publication has 3 references indexed in Scilit:
- Molecular Beam Stabilized Multiwatt Argon LasersMetrologia, 1977
- Frequency Stabilization of Argon Lasers at 582.49 THz Using Saturated Absorption in127I2Metrologia, 1977
- Perturbation de l'iode moléculaire en phase vapeur par la présence de gaz étrangers. Conséquence pour la stabilisation du laser He-NeRevue de Physique Appliquée, 1977