Optimum emission polarization and power enhancement in circularly polarized optically pumped lasers.

Two-wave-coupling coefficients are presented in the high-J limit for all combinations of linearly and circularly polarized waves and all dipole-allowed transition branches. The results are used to predict the optimum state of emission polarization and the anticipated output-power change under the influence of a circularly polarized pump in optically pumped lasers.

Phase fluctuation optical heterodyne spectroscopy of gases.

The theory underlying the use of the phase fluctuation optical heterodyne (PFLOH) technique in studies of molecular relaxation, thermal conduction, and extremely weak absorptions in the gas phase is presented. Several new solutions to the heat conduction equation, with and without mass diffusion, which are appropriate to pulsed, cw, and modulated-cw laser modulation of weakly absorbing gases, are presented. Experiments employing pulsed and modulated-cw excitation have borne out the essential predictions of the theory. PFLOH systems for use in a trace detection application have been built with a demonstrated sensitivity, in terms of measurable absorption by the trace material, below 10(-10) cm(-1).