Phase locking of lasers with Gaussian coupling

Andra Naresh Kumar Reddy; Simon Mahler; Alon Goldring; Vishwa Pal; Asher A. Friesem; Nir Davidson

doi:10.1364/OE.439957

Phase locking of lasers with Gaussian coupling

Andra Naresh Kumar Reddy
, Simon Mahler
, Alon Goldring
, Vishwa Pal
, Asher A. Friesem
, Nir Davidson

Department of Biomedical Engineering

Weizmann Institute of Science
Indian Institute of Technology Ropar

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

A unique approach for steady in-phase locking of lasers in an array, regardless of the array geometry, position, orientation, period or size, is presented. The approach relies on the insertion of an intra-cavity Gaussian aperture in the far-field plane of the laser array. Steady in-phase locking of 90 lasers, whose far-field patterns are comprised of sharp spots with extremely high power density, was obtained for various array geometries, even in the presence of near-degenerate solutions, geometric frustration or superimposed independent longitudinal modes. The internal phase structures of the lasers can also be suppressed so as to obtain pure Gaussian mode laser outputs with uniform phase and overall high beam quality. With such phase locking, the laser array can be focused to a sharp spot of high power density, useful for many applications and the research field.

Original language	English
Pages (from-to)	1114-1129
Number of pages	16
Journal	Optics Express
Volume	30
Issue number	2
DOIs	https://doi.org/10.1364/OE.439957
State	Published - 17 Jan 2022

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10.1364/OE.439957

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title = "Phase locking of lasers with Gaussian coupling",

abstract = "A unique approach for steady in-phase locking of lasers in an array, regardless of the array geometry, position, orientation, period or size, is presented. The approach relies on the insertion of an intra-cavity Gaussian aperture in the far-field plane of the laser array. Steady in-phase locking of 90 lasers, whose far-field patterns are comprised of sharp spots with extremely high power density, was obtained for various array geometries, even in the presence of near-degenerate solutions, geometric frustration or superimposed independent longitudinal modes. The internal phase structures of the lasers can also be suppressed so as to obtain pure Gaussian mode laser outputs with uniform phase and overall high beam quality. With such phase locking, the laser array can be focused to a sharp spot of high power density, useful for many applications and the research field.",

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T1 - Phase locking of lasers with Gaussian coupling

AU - Reddy, Andra Naresh Kumar

AU - Mahler, Simon

AU - Goldring, Alon

AU - Pal, Vishwa

AU - Friesem, Asher A.

AU - Davidson, Nir

PY - 2022/1/17

Y1 - 2022/1/17

N2 - A unique approach for steady in-phase locking of lasers in an array, regardless of the array geometry, position, orientation, period or size, is presented. The approach relies on the insertion of an intra-cavity Gaussian aperture in the far-field plane of the laser array. Steady in-phase locking of 90 lasers, whose far-field patterns are comprised of sharp spots with extremely high power density, was obtained for various array geometries, even in the presence of near-degenerate solutions, geometric frustration or superimposed independent longitudinal modes. The internal phase structures of the lasers can also be suppressed so as to obtain pure Gaussian mode laser outputs with uniform phase and overall high beam quality. With such phase locking, the laser array can be focused to a sharp spot of high power density, useful for many applications and the research field.

AB - A unique approach for steady in-phase locking of lasers in an array, regardless of the array geometry, position, orientation, period or size, is presented. The approach relies on the insertion of an intra-cavity Gaussian aperture in the far-field plane of the laser array. Steady in-phase locking of 90 lasers, whose far-field patterns are comprised of sharp spots with extremely high power density, was obtained for various array geometries, even in the presence of near-degenerate solutions, geometric frustration or superimposed independent longitudinal modes. The internal phase structures of the lasers can also be suppressed so as to obtain pure Gaussian mode laser outputs with uniform phase and overall high beam quality. With such phase locking, the laser array can be focused to a sharp spot of high power density, useful for many applications and the research field.

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JO - Optics Express

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Phase locking of lasers with Gaussian coupling

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