Title :
Nonlinear thermal and stress effects and scaling behavior of YAG slab amplifiers
Author_Institution :
LE Syst. Inc., Brackney, PA, USA
fDate :
12/1/1998 12:00:00 AM
Abstract :
Yttrium aluminum garnet (YAG) has thermal and mechanical properties that vary strongly with temperature. In the paper, we extend previously reported rod amplifier nonlinear average power scaling relationships to slab amplifiers. As found previously with rod amplifiers, we show that, at room temperature and below, temperature profiles obtained are nonquadratic and that the magnitude of the stresses are seriously underestimated if variations in YAG properties with temperature are ignored. Our results are applied to Nd:YAG and Yb:YAG lasers operating with coolant temperatures at room temperature and 77 K. As found previously with rod lasers, significant increases in average power can be obtained by operating Nd:YAG and Yb:YAG lasers at 77 K. In addition, we compare the nonlinear average power scaling behavior of rod and slab amplifiers using both linear and nonlinear approaches
Keywords :
laser beams; neodymium; nonlinear optics; optical pumping; solid lasers; stress effects; thermal stresses; ytterbium; 298 K; 77 K; Nd:YAG lasers; YAG properties; YAG slab amplifiers; YAG:Nd; YAG:Yb; YAl5O12:Nd; YAl5O12:Yb; Yb:YAG lasers; average power; coolant temperatures; linear approaches; mechanical properties; nonlinear approaches; nonlinear average power scaling behavior; nonlinear average power scaling relationships; nonlinear stress effects; nonlinear thermal effects; rod amplifier; rod amplifiers; rod lasers; room temperature; scaling behavior; slab amplifiers; temperature profiles; thermal properties; Aluminum; Coolants; Garnets; Mechanical factors; Power amplifiers; Power lasers; Slabs; Temperature; Thermal stresses; Yttrium;
Journal_Title :
Quantum Electronics, IEEE Journal of
