Title :
Phase-locked laser array far-field normalization
Author :
Novoseller, Daniel E. ; Botez, Dan
Author_Institution :
TRW, Redondo Beach, CA, USA
fDate :
6/1/1989 12:00:00 AM
Abstract :
The normalization of the far-field distribution from phase-locked linear arrays of evanescently coupled semiconductor diode lasers is evaluated. As the element number N→∞, the peak irradiance of the fundamental array mode tends to 81% of the peak irradiance of an array of in-phase equal-intensity diodes. It is also found that for N⩾10, the peak irradiance is proportional to 0.81 (1+1/N)N2, and the diffraction-limited beamwidth is approximately 1.19 λ(N+1)S where λ is the vacuum wavelength and S is the array period. The far-field array factor is the same for an N-element array and an (N+1) S-wide cosine source as long as N⩾10
Keywords :
laser modes; semiconductor junction lasers; array period; diffraction-limited beamwidth; evanescently coupled semiconductor diode lasers; far-field distribution; fundamental array mode; normalization; peak irradiance; phase-locked linear arrays; vacuum wavelength; Diffraction; Helium; Laser modes; Laser theory; Optical arrays; Optical coupling; Pattern analysis; Phased arrays; Semiconductor diodes; Semiconductor laser arrays; Shape;
Journal_Title :
Quantum Electronics, IEEE Journal of
