Title :
Design of aberration-corrected curved-mirror and curved-grating unstable resonator diode lasers
Author_Institution :
Spectra Diode Labs., San Jose, CA, USA
fDate :
1/1/1994 12:00:00 AM
Abstract :
An algorithm is presented for the design of an unstable optical resonator that supports an arbitrary optical mode. The same algorithm may be applied to the design of curved-mirror and curved-grating resonators, including both distributed Bragg reflector and distributed feedback unstable resonators. The new design formalism produces much simpler formulas than an algorithm previously described by the author. Example resonators are calculated that include hyperbolic-grating resonators with aberration-free diverging-beam modes and a newly proposed device: a parabolic-grating confocal distributed feedback unstable resonator that possesses a collimated output beam
Keywords :
aberrations; diffraction gratings; distributed Bragg reflector lasers; distributed feedback lasers; laser beams; laser cavity resonators; laser modes; mirrors; optical design techniques; semiconductor lasers; aberration-corrected curved-mirror; aberration-free diverging-beam modes; algorithm; arbitrary optical mode; collimated output beam; curved-grating unstable resonator diode lasers; design; distributed Bragg reflector; distributed feedback; hyperbolic-grating resonators; parabolic-grating confocal distributed feedback unstable resonator; unstable optical resonator; Algorithm design and analysis; Diode lasers; Distributed feedback devices; Geometrical optics; Gratings; Laser beams; Mirrors; Optical design; Optical resonators; Semiconductor optical amplifiers;
Journal_Title :
Quantum Electronics, IEEE Journal of
