Polarisation selection rules and disorienting collision effects in resonant degenerate four-wave mixing
- 28 July 1981
- journal article
- Published by IOP Publishing in Journal of Physics B: Atomic and Molecular Physics
- Vol. 14 (14) , L471-L476
- https://doi.org/10.1088/0022-3700/14/14/003
Abstract
Various polarisation selection rules guiding phase conjugate emission via degenerate four-wave mixing are discussed. It is shown that, in resonant gas media, depolarising collisions may induce phase conjugation in cases when this non-linear process in otherwise forbidden. However, Doppler broadening often limits the efficiency of non-collinear collision-induced four-wave mixing and introduces a very rapid decrease of the reflectivity with increasing angular separations between pump and probe beams.Keywords
This publication has 11 references indexed in Scilit:
- Pressure-induced degenerate frequency resonance in four-wave light mixingOptics Letters, 1981
- Nondegenerate four-wave mixing in a Doppler-broadened resonant mediumJournal of the Optical Society of America, 1981
- Theory of degenerate four-wave mixing in resonant Doppler-broadened systems - I. Angular dependence of intensity and lineshape of phase-conjugate emissionJournal de Physique, 1981
- Angular dependence of line shape and strength of degenerate four-wave mixing in a Doppler-broadened system with optical pumpingOptics Letters, 1980
- Polarization-rotation and thermal-motion studies via resonant degenerate four-wave mixingApplied Physics Letters, 1979
- Direct observation of resonant four-photon parametric mixing conditioned by the difference of atomic multipole relaxation ratesOptics Communications, 1979
- Effects of atomic motion on wavefront conjugation by resonantly enhanced degenerate four-wave mixingOptics Letters, 1979
- Spatial-diffusion measurements in impurity-doped solids by degenerate four-wave mixingOptics Letters, 1979
- cw optical wave-front conjugation by saturated absorption in atomic sodium vaporApplied Physics Letters, 1978
- Theory of Nonlinear Effects in a Gas Laser Amplifier. I. Weak SignalsPhysical Review B, 1968