Collision-Induced Optical Double Resonance

8 July 1974

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 33 (2) , 63-66
https://doi.org/10.1103/physrevlett.33.63

Abstract

The double-resonance concept is extended to the situation of two coherently driven optical transitions that do not share a common level but are coupled by molecular collisions that tip the angular momentum vector while preserving the molecular velocity and the rotational energy. This collision-induced double resonance is observed as sharp resonances, free of Doppler broadening, and can be explained in the same order of perturbation theory as the ordinary double-resonance experiment. They appear as satellite lines accompanying the usual double resonance or Lamb-dip spectra.

Keywords

This publication has 11 references indexed in Scilit:

Observation of Momentum Transfer in Rotationally Inelastic Molecular Collisions of ${CO}_{2}$ with $H_{2}$ , He, ${CO}_{2}$ , and Kr
Physical Review Letters, 1974
Coherent Transient Study of Velocity-Changing Collisions
Physical Review Letters, 1973
Infrared-infrared double resonance experiments using a two-photon technique
The Journal of Chemical Physics, 1973
Nonlinear Spectroscopy
Science, 1972
Precision Determination of C $H_{3}$ F Dipole Moment by Nonlinear Infrared Spectroscopy
Physical Review Letters, 1970
Laser-Induced Line-Narrowing Effects in Coupled Doppler-Broadened Transitions
Physical Review B, 1969
Microwave Double-Resonance Experiments
The Journal of Chemical Physics, 1965
A New "Double Resonance" Method for Investigating Atomic Energy Levels. Application to $Hg {}^{3}P_{1}$
Physical Review B, 1952
The Radiofrequency Spectrum of ${Rb}^{85}$ F and ${Rb}^{87}$ F by the Electric Resonance Method
Physical Review B, 1950
Pressure Broadening in the Microwave and Infra-Red Regions
Physical Review B, 1949