Title :
Minimizing Heat Generation in Solid-State Lasers
Author :
Bowman, Steven R. ; O´Connor, Shawn P. ; Biswal, Subrat ; Condon, Nicholas J. ; Rosenberg, Armand
Author_Institution :
Adv. Laser Concepts, Naval Res. Lab., Washington, DC, USA
fDate :
7/1/2010 12:00:00 AM
Abstract :
Novel high-power ytterbium YAG lasers are described. These lasers incorporate the principle of anti-Stokes fluorescence cooling to reduce or eliminate detrimental heating. Lasers with net heating and net cooling are demonstrated. By balancing the spontaneous and stimulated emission, we have reduced the net thermal loading to below 0.01% of the laser´s average output power. Design, testing, and analysis are reported for lasers up to 500 W average power and pulsed operation up to 30 s. Issues and limitations of this approach are discussed.
Keywords :
heat treatment; laser cavity resonators; optical design techniques; optical pumping; solid lasers; ytterbium; yttrium compounds; YAG:Yb; antiStokes fluorescence cooling; average output power; end-pumped resonators; heat generation minimization; high-power ytterbium YAG lasers; laser design; net cooling; net heating; net thermal loading; solid-state lasers; stimulated emission; Cooling; Fluorescence; Heating; Optical design; Power generation; Power lasers; Solid lasers; Stimulated emission; Thermal loading; Ytterbium; Laser thermal factors; solid lasers; ytterbium;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2010.2043415
