Title :
Atmospheric thermal lensing in laser resonators
Author :
Barnes, Norman P. ; Thomas, Milfred E. ; Koch, Grady J. ; Marsh, Waverly D.
Author_Institution :
NASA Langley Res. Center, Hampton, VA, USA
fDate :
5/1/1995 12:00:00 AM
Abstract :
Atmospheric absorption degrades laser performance both by absorbing laser energy within the laser resonator, which increases the loss, and by inducing a thermal lens in the atmosphere. Atmospheric thermal lensing can be quite severe, even when the absorption coefficient is quite modest. A model is developed which describes atmospheric thermal lensing; time constants, which are associated with the establishment and decay of the atmospheric thermal lens, are determined; experiments are performed using an injection seeded Ti:Al 2O3 laser tuned to the H2O absorption lines near 0.815 μm to validate the model; dependence of the atmospheric thermal lens on the laser energy and absorption coefficient were measured and found to agree with the model. In addition, the decay of the atmospheric thermal lens with time was measured and also found to agree with the model predictions
Keywords :
absorption coefficients; alumina; atmospheric light propagation; laser beams; laser cavity resonators; laser tuning; nonlinear optics; optical radar; solid lasers; thermal blooming; titanium; 0.815 mum; Al2O3:Ti; H2O; H2O absorption lines; Ti:Al2O3 laser; absorbing laser energy; absorption coefficient; atmosphere; atmospheric absorption; atmospheric thermal lensing; injection seeded; laser energy; laser performance; laser resonators; lidars; optical radars; thermal lens; time constants; Absorption; Atmospheric measurements; Atmospheric modeling; Laser modes; Laser tuning; Lenses; Performance loss; Thermal degradation; Thermal lensing; Time measurement;
Journal_Title :
Quantum Electronics, IEEE Journal of
