Title :
Graded-phase mirror resonator with a super-Gaussian output in a CW-CO2 laser
Author :
Van Neste, Richard ; Paré, Claude ; Lachance, Richard L. ; Bélanger, Pierre-A
Author_Institution :
COPL, Laval Univ., Que., Canada
fDate :
11/1/1994 12:00:00 AM
Abstract :
Two graded-phase mirror (GPM) resonators have been designed to produce super-Gaussian output beam profiles of order 4 and 6. An inverse propagation method was used to calculate the appropriate shape of the GPM´s. Previous experimental work with a pulsed TEA-CO2 laser has already confirmed the high transverse mode discrimination offered by such custom resonators, as anticipated by a theoretical analysis of their diffractional properties. Here, we extend these results by presenting new experimental measurements with a CW-CO2 laser. The main objective of this paper is to demonstrate the super-Gaussian beam shape produced by these custom resonators. This is assessed with numerical simulations involving the incoherent superposition of transverses modes. The experimental results obtained with the GPM resonators, including measurements of the propagation of the output beam profile, are compared to those of a conventional semiconfocal cavity, and show higher monomode power extraction
Keywords :
carbon compounds; gas lasers; laser cavity resonators; laser mirrors; laser modes; numerical analysis; CO2; appropriate shape; continuous wave CO2 laser; custom resonators; diffractional properties; experimental measurements; graded-phase mirror resonator; incoherent superposition; inverse propagation method; monomode power extraction; super-Gaussian beam shape; super-Gaussian output beam profiles; theoretical analysis; transverse mode discrimination; Diffraction; Laser beams; Laser modes; Laser theory; Mirrors; Numerical simulation; Optical propagation; Optical pulses; Power measurement; Shape;
Journal_Title :
Quantum Electronics, IEEE Journal of
