High-resolution digital spatial control of a highly multimode laser

Chene Tradonsky; Simon Mahler; Gaodi Cai; Vishwa Pal; Ronen Chriki; Asher A. Friesem; Nir Davidson

doi:10.1364/OPTICA.423140

High-resolution digital spatial control of a highly multimode laser

Chene Tradonsky
, Simon Mahler
, Gaodi Cai
, Vishwa Pal
, Ronen Chriki
, 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

43 Scopus citations

Abstract

We developed a rapid and efficient method for generating laser outputs with arbitrary shaped distributions and properties that are needed for a variety of applications. It is based on simultaneously controlling the intensity, phase, and coherence distributions of the laser. The method involves a digital degenerate cavity laser in which a phase-only spatial light modulator and spatial filters are incorporated. As a result, a variety of unique and high-resolution arbitrary shaped laser beams were generated with either a low or a high spatial coherence and with a minimal change in the laser output power. By controlling the phase, intensity, and coherence distributions, a shaped laser beam was efficiently reshaped into a completely different shape after free space propagation. The generation of such laser beams could lead to new and interesting applications.

Original language	English
Pages (from-to)	880-884
Number of pages	5
Journal	Optica
Volume	8
Issue number	6
DOIs	https://doi.org/10.1364/OPTICA.423140
State	Published - 20 Jun 2021

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10.1364/OPTICA.423140

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title = "High-resolution digital spatial control of a highly multimode laser",

abstract = "We developed a rapid and efficient method for generating laser outputs with arbitrary shaped distributions and properties that are needed for a variety of applications. It is based on simultaneously controlling the intensity, phase, and coherence distributions of the laser. The method involves a digital degenerate cavity laser in which a phase-only spatial light modulator and spatial filters are incorporated. As a result, a variety of unique and high-resolution arbitrary shaped laser beams were generated with either a low or a high spatial coherence and with a minimal change in the laser output power. By controlling the phase, intensity, and coherence distributions, a shaped laser beam was efficiently reshaped into a completely different shape after free space propagation. The generation of such laser beams could lead to new and interesting applications.",

author = "Chene Tradonsky and Simon Mahler and Gaodi Cai and Vishwa Pal and Ronen Chriki and Friesem, \{Asher A.\} and Nir Davidson",

note = "Publisher Copyright: {\textcopyright}2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.",

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T1 - High-resolution digital spatial control of a highly multimode laser

AU - Tradonsky, Chene

AU - Mahler, Simon

AU - Cai, Gaodi

AU - Pal, Vishwa

AU - Chriki, Ronen

AU - Friesem, Asher A.

AU - Davidson, Nir

PY - 2021/6/20

Y1 - 2021/6/20

N2 - We developed a rapid and efficient method for generating laser outputs with arbitrary shaped distributions and properties that are needed for a variety of applications. It is based on simultaneously controlling the intensity, phase, and coherence distributions of the laser. The method involves a digital degenerate cavity laser in which a phase-only spatial light modulator and spatial filters are incorporated. As a result, a variety of unique and high-resolution arbitrary shaped laser beams were generated with either a low or a high spatial coherence and with a minimal change in the laser output power. By controlling the phase, intensity, and coherence distributions, a shaped laser beam was efficiently reshaped into a completely different shape after free space propagation. The generation of such laser beams could lead to new and interesting applications.

AB - We developed a rapid and efficient method for generating laser outputs with arbitrary shaped distributions and properties that are needed for a variety of applications. It is based on simultaneously controlling the intensity, phase, and coherence distributions of the laser. The method involves a digital degenerate cavity laser in which a phase-only spatial light modulator and spatial filters are incorporated. As a result, a variety of unique and high-resolution arbitrary shaped laser beams were generated with either a low or a high spatial coherence and with a minimal change in the laser output power. By controlling the phase, intensity, and coherence distributions, a shaped laser beam was efficiently reshaped into a completely different shape after free space propagation. The generation of such laser beams could lead to new and interesting applications.

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VL - 8

SP - 880

EP - 884

JO - Optica

JF - Optica

IS - 6

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High-resolution digital spatial control of a highly multimode laser

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