Title :
Phase-locked arrays of semiconductor diode lasers
Author :
Botez, Dan ; Ackley, Donald E.
Abstract :
Semiconductor diode lasers can be combined into monolithic phase-locked arrays that operate to continuous-wave (CW) powers in excess of 1 W and exhibit well-defined output beams to hundreds of mW. Applications of arrays include high-speed optical recording, high-speed printing, free-space communications, and efficient pumping of solid-state lasers. The authors review the current state of phase-locked array design with emphasis on the means for achieving fundamental mode operation. Models for understanding and predicting the behavior of phase-locked arrays are discussed, and the potential of various array structures to operate in a single, diffraction-limited output beam is evaluated.
Keywords :
laser mode locking; semiconductor junction lasers; CW power 1 W; diffraction-limited output beam; free-space communications; fundamental mode operation; high-speed optical recording; high-speed printing; monolithic phase-locked arrays; semiconductor diode lasers; solid state laser pumping; Finite element methods; Laser beams; Laser modes; Optical waveguides; Phased arrays; Semiconductor laser arrays; Waveguide lasers;
Journal_Title :
Circuits and Devices Magazine, IEEE
DOI :
10.1109/MCD.1986.6311765
