6533b821fe1ef96bd127acaf
RESEARCH PRODUCT
Models, predictions, and experimental measurements of far-infrared NH3-laser dynamics and comparisons with the Lorenz-Haken model
Ramón CorbalánU. HübnerG. J. De ValcárcelRamon VilasecaDingyuan TangC.o. WeissNeal B. AbrahamEugenio RoldánJ. Pujolsubject
PhysicsPhysics and Astronomy (miscellaneous)General EngineeringGeneral Physics and AstronomyOptical fieldParameter spaceLaserlaw.inventionAmplitudeClassical mechanicsFar infraredlawPhase spaceAttractorStatistical physicsCoherence (physics)description
Dynamics of the intensity and optical field amplitude of a coherently pumped far-infrared NH3-laser are measured and characterized. The experimental findings in certain parameter ranges closely follow the dynamics of the Lorenz model and its generalization for laser systems. Similarities and some specific differences are found in geometrical or statistical characterizations of the attractors. The experimental results are also consistent with the results of a model of optically pumped three-level lasers which takes into account the presence of a multiplicity of velocity groups as well as three-level coherence effects. For a certain region in parameter space, this far more complex model with a much larger phase space produces results similar to the dynamics of the Lorenz model. The model also provides explanations of differences between the experimental results and results from the Lorenz model.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1995-09-01 | Applied Physics B |