Title :
Thermal lensing in diode-pumped ytterbium Lasers-Part I: theoretical analysis and wavefront measurements
Author :
Chénais, Sébastien ; Balembois, François ; Druon, Frédéric ; Lucas-Leclin, Gaëlle ; Georges, Patrick
Author_Institution :
Lab. Charles Fabry de l´´Inst. d´´Opt., Orsay, France
Abstract :
A theoretical and experimental study of thermal lensing in Yb-doped crystals is presented. In this first part, we focus on theoretical considerations and we describe an original technique suitable for thermal lensing measurements in end-pumped materials. We first derive an expression of the temperature distribution with account of absorption saturation and pump beam divergence inside the crystal, and we address a more general discussion on the particularities of quasi-three-level lasers, as far as thermal effects and fracture issues are concerned. The thermal lens was then measured using a simple technique based on a Shack-Hartmann wavefront analyzer, under lasing and nonlasing conditions. We demonstrate that the technique allows precise wavefront measurements even on small spots. Thermal lensing measurements are finally presented in Yb-doped YAG, GGG, YCOB, GdCOB, KGW, and YSO crystals.
Keywords :
calcium compounds; fracture; gadolinium compounds; laser beams; optical materials; optical pumping; optical variables measurement; photothermal effects; potassium compounds; solid lasers; thermal lensing; ytterbium; yttrium compounds; GdCa4O(BO3)3:Yb; GdGG:Yb; GdGa5O12:Yb; KGd(WO4)2:Yb; Shack-Hartmann wavefront analyzer; Y2SiO5:Yb; YAG:Yb; YAl5O12:Yb; YCa4O(BO3)3:Yb; Yb-doped GGG crystal; Yb-doped GdCOB crystal; Yb-doped KGW crystal; Yb-doped YAG crystal; Yb-doped YCOB crystal; Yb-doped YSO crystal; Yb-doped crystals; absorption saturation; diode-pumped ytterbium lasers; end-pumped materials; fracture; lasing conditions; nonlasing conditions; photothermal effects; pump beam divergence; quasithree-level lasers; solid lasers; temperature distribution; thermal effects; thermal lens; thermal lensing; wavefront measurements; Absorption; Crystalline materials; Crystals; Diodes; Laser excitation; Laser theory; Optical materials; Temperature distribution; Thermal lensing; Ytterbium; Photothermal effects; solid lasers; thermo-optic effects; ytterbium;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2004.833198
