PRESSURE AND CURRENT DEPENDENT SHIFTS IN THE FREQUENCY OF OSCILLATION OF THE CO2 LASER
- 1 January 1968
- journal article
- research article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 12 (1) , 20-23
- https://doi.org/10.1063/1.1651835
Abstract
The shift of the frequency of oscillation of the 00°1–10°0 rotation‐vibration band at 10.6 μ of a CO2 laser has been investigated as a function of total pressure, CO2 partial pressure, discharge current, and cavity mode position. The measurements were made by heterodyning two passively stabilized CO2 lasers, both oscillating in a single transverse mode and single frequency at the P branch of the 00°1–10°0 rotation‐vibration band of CO2. The result yielded a 5–8 MHz/torr frequency shift toward red due to an increase in total pressure and a 500–900 kHz/mA shift toward blue due to an increase in excitation. The amount of frequency shift due to excitation was found to be independent of the location of the cavity resonance with respect to the Doppler center. The dependence on CO2 partial pressure was also determined.Keywords
This publication has 12 references indexed in Scilit:
- A SEALED-OFF MICHELSON TYPE CO2 LASER FOR DIAGNOSTIC STUDIES OF GASEOUS PLASMASApplied Physics Letters, 1967
- Use of Cer-Vit Material in Low Expansion Reference Optical CavitiesApplied Optics, 1967
- A Screenless Integrating SphereApplied Optics, 1967
- Plasma Properties of a CO2 Laser DischargeJournal of Applied Physics, 1967
- PRESSURE- AND CURRENT-DEPENDENT SHIFTS IN THE CENTER FREQUENCY OF THE DOPPLER-BROADENED (2p4 → 3s2) 6328-Å 20Ne TRANSITIONApplied Physics Letters, 1967
- DEPOSITION AND DIFFUSION OF DEUTERONS IN GOLD, NICKEL, AND COPPERApplied Physics Letters, 1967
- Pressure Shifts in a Stabilized Single Wavelength Helium-Neon LaserApplied Optics, 1966
- Effects of Collisions on Saturation Behavior of the 1.15-μ Transition of Ne Studied with He-Ne LaserPhysical Review B, 1966
- Photon Effects in Hg_1−x Cdx TeApplied Optics, 1965
- Hole Burning Effects in a He-Ne Optical MaserPhysical Review B, 1962