Abstract
We present theoretical and experimental studies of the influence of high intensity laser radiation on light emitted on a branch line inside the resonance cavity of an argon ion laser. We provide a steady-state description of interactions between the two fields. Propagation, saturation and two photon transitions introduce a “correction” to the Einstein's A coefficient. The extent of the correction is different for various branch lines and depends on both the value of the respective A coefficient and the intensity of laser light. The A coefficients are not dependent on collisions of ions with photons within the measurement error. Experimental results appear to confirm our simple theoretical model and show complex behavior of the system.
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