Apparatus and method for cavity dumping a q-switched laser

Abstract

A laser having a gaseous gain medium capable of continuous wave operation and including an etalon with a Stark active gas disposed therein, adapted for providing submicrosecond pulses is disclosed. A method of utilizing the Stark effect to tune rapidly an etalon to form an output mirror having a variable reflectivity to Q-switch and cavity dump the optical flux within a laser to provide an output pulse of laser radiation having a submicrosecond pulse width, typically variable between fifty and three hundred fifty nanoseconds, at a pulse repetition frequency up to twenty-five kilohertz is disclosed. A laser typically having a carbon dioxide gain medium adapted for continuous wave operation includes a grating defining one end of the laser resonator and an output mirror defining the other end wherein the output mirror is an etalon formed with two mirrors containing a switching cell having a Stark active gas disposed therein. A voltage applied to the switching cell rapidly transforms the highly transmissive state of the output mirror to a highly reflective state to Q-switch the laser. Terminating the voltage rapidly transforms the highly reflective state of the output mirror to its original highly transmissive state to cavity dump the Q-switched optical pulse. Controlling the width, fall time and repetition rate of the voltage pulse controls the pulse intensity, pulse width and pulse repetition frequency of the laser output pulses.