Title :
Yb:YAG absorption at ambient and cryogenic temperatures
Author :
Brown, David C. ; Cone, Rufus L. ; Sun, Yongchen ; Equall, Randy W.
Author_Institution :
Snake Creek Lasers LLC, Hallstead, PA, USA
Abstract :
We have performed absorption measurements and generated absorption cross sections as a function of wavelength for the laser material YAG doped with ytterbium at 300, 175, and 75 K. This data was generated to enable a direct comparison of the absorption intensity and linewidths at room and cryogenic temperatures, and in particular near the temperature of liquid nitrogen at 77 K. The data have been used to compute universal absorption contour plots that display absorption as a function of the incident light center wavelength and optical thickness (doping density times penetration depth) for a number of bandwidths, and assuming that the spectrum of the incident light can be described as a Gaussian. Curves are presented for both 300 and 75 K, and may be used to optimize the absorption and laser efficiency.
Keywords :
cryogenics; solid lasers; spectral line breadth; thermo-optical effects; ytterbium; 175 K; 293 to 298 K; 300 K; 75 K; 77 K; Gaussian spectrum; YAG:Yb; YAl5O12:Yb; Yb:YAG absorption; absorption contour plots; absorption cross sections; absorption intensity; absorption linewidths; absorption measurements; ambient temperature; cryogenic temperature; laser material; room temperature; Absorption; Cryogenics; Density measurement; Optical materials; Particle measurements; Performance evaluation; Temperature; Thickness measurement; Wavelength measurement; Ytterbium; Yb:YAG; Yb:YAG absorption; Yb:YAG laser; cryogenic cooling; solid-state laser;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2005.850236
