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1 May 1990 Phaselocking of a two-dimensional laser array with random detuning of eigenfrequencies
A. A. Golubenzev, Vladimir V. Likhanskii, Anatoly P. Napartovich
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Proceedings Volume 1219, Laser Diode Technology and Applications II; (1990) https://doi.org/10.1117/12.18291
Event: OE/LASE '90, 1990, Los Angeles, CA, United States
Abstract
This paper presents the results of analytical and numerical studies into synchronization of a large number of optically coupled resonators with random detuning of eigenfrequencies. The 'nearest-neighbor' coupling model with allowance made for gain saturation is considered. Assuming that the coupling coefficient has zero imaginary part, the problem of steady-state phase distribution over the aperture of the two-dimensional array reduces to the problem of temperature distribution in a two-dimensional medium in the presence of heat sources and coolers with random powers. It is shown that the steady-state phase distribution over the aperture has domainlike form. Phases in adjacent domains differ by values of the order of pi. Combining the scheme with nearest-neighbor coupling and external signal injection, it is easy to attain synchronous lasing from large arrays.
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A. A. Golubenzev, Vladimir V. Likhanskii, and Anatoly P. Napartovich "Phaselocking of a two-dimensional laser array with random detuning of eigenfrequencies", Proc. SPIE 1219, Laser Diode Technology and Applications II, (1 May 1990); https://doi.org/10.1117/12.18291
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KEYWORDS
Laser applications
Resonators
Mode locking
Information operations
Laser resonators
Laser optics
Magnetism
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