Title :
Investigating Transient Thermal Effects in Flash-Lamp-Pumped Heat Capacity Nd:YAG Rod Laser
Author :
Shah, A.L. ; Datta, S.N. ; Singh, A.R. ; Malhotra, Rajni ; Pal, Suranjan ; Kumar, Anil
Author_Institution :
Laser Sci. & Technol. Centre (LASTEC), Delhi
Abstract :
Transient thermal effects induced in the laser medium under heat capacity (HC) mode of operation and its influence on the output laser performance is presented. Thermal loading and the resulting negative lensing effects are shown to be different under lasing and nonlasing conditions. Negative refractive power of laser rod affecting the laser resonator stability was observed to be the major cause for the decline in the output power in HC mode. An active resonator model based on measured thermal refractive power is discussed and impact of resonator design parameters on laser beam quality is investigated. An output power of 152 W in HC mode for a run time of 5 s has been obtained. Comparative performance results in conventional continuously cooled (CC) mode is also discussed to highlight the characteristic differences in the two operating modes. Nearly 2-3 times better output beam quality was obtained in HC mode as compared to CC mode.
Keywords :
flash lamps; laser beams; laser cavity resonators; laser modes; neodymium; optical pumping; solid lasers; specific heat; thermal lensing; Nd:YAG rod laser; YAG:Nd; active resonator model; conventional continuously cooled mode; flash-lamp-pumped heat capacity; laser beam quality; laser resonator stability; negative lensing effects; negative refractive power; power 152 W; thermal loading; time 5 s; transient thermal effects; Laser beams; Laser modes; Laser stability; Optical design; Optical refraction; Power generation; Power lasers; Power measurement; Thermal lensing; Thermal loading; Beam parameter product (BPP); Nd:YAG laser; continuously cooled (CC); heat capacity (HC); thermal lensing;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2008.2001960
