Low-cost laser detection system with a 360-deg horizontal field of view

Marie Zandi; Kate Sugden; David M. Benton

doi:10.1117/1.oe.60.2.027106

Low-cost laser detection system with a 360-deg horizontal field of view

Marie Zandi, Kate Sugden, David M. Benton

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

Abstract

A low-cost laser detection system based on coherence detection has been developed and is able to detect weak, continuous laser sources even against bright background light. The system is composed of a Mach–Zehnder interferometer with one arm modified with a piezo-mounted mirror to modulate the path length. We introduce methods to determine the laser wavelength and to extend the horizontal field of view of the detector. To widen the field of view, a cone mirror is added to the system while the additional use of a camera allows the direction of the incoming laser beam to be studied. The wavelength from three different lasers is estimated with the use of the modulation amplitude of the piezo mirror. The preliminary results demonstrate that a 360-deg horizontal field of view can be achieved and that the direction of the laser beam can be determined with an estimated angular precision of ±5 deg. Moreover, the wavelength can be determined with a precision of ±10 nm. The system trades sensitivity for a larger field of view with the resultant detection sensitivity equal to 70 nW (or 1 μW · cm − 2) at 635 nm.

Original language	English
Article number	027106
Journal	Optical Engineering
Volume	60
Issue number	2
DOIs	https://doi.org/10.1117/1.oe.60.2.027106
Publication status	Published - 18 Feb 2021

Bibliographical note

© The Authors. Published by SPIE under a Creative Commons Attribution 4.0 Unported License.
Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI

Keywords

coherence discrimination
cone mirror
field of view
laser detection
laser direction
wavelength determination

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10.1117/1.oe.60.2.027106Licence: CC BY 3.0

Low-cost laser detection system with a 360-deg horizontal field of view
© The Authors. Published by SPIE under a Creative Commons Attribution 4.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI
Final published version, 3.07 MBLicence: CC BY 3.0

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title = "Low-cost laser detection system with a 360-deg horizontal field of view",

abstract = "A low-cost laser detection system based on coherence detection has been developed and is able to detect weak, continuous laser sources even against bright background light. The system is composed of a Mach–Zehnder interferometer with one arm modified with a piezo-mounted mirror to modulate the path length. We introduce methods to determine the laser wavelength and to extend the horizontal field of view of the detector. To widen the field of view, a cone mirror is added to the system while the additional use of a camera allows the direction of the incoming laser beam to be studied. The wavelength from three different lasers is estimated with the use of the modulation amplitude of the piezo mirror. The preliminary results demonstrate that a 360-deg horizontal field of view can be achieved and that the direction of the laser beam can be determined with an estimated angular precision of ±5 deg. Moreover, the wavelength can be determined with a precision of ±10 nm. The system trades sensitivity for a larger field of view with the resultant detection sensitivity equal to 70 nW (or 1 μW · cm − 2) at 635 nm.",

keywords = "coherence discrimination, cone mirror, field of view, laser detection, laser direction, wavelength determination",

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AU - Benton, David M.

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N2 - A low-cost laser detection system based on coherence detection has been developed and is able to detect weak, continuous laser sources even against bright background light. The system is composed of a Mach–Zehnder interferometer with one arm modified with a piezo-mounted mirror to modulate the path length. We introduce methods to determine the laser wavelength and to extend the horizontal field of view of the detector. To widen the field of view, a cone mirror is added to the system while the additional use of a camera allows the direction of the incoming laser beam to be studied. The wavelength from three different lasers is estimated with the use of the modulation amplitude of the piezo mirror. The preliminary results demonstrate that a 360-deg horizontal field of view can be achieved and that the direction of the laser beam can be determined with an estimated angular precision of ±5 deg. Moreover, the wavelength can be determined with a precision of ±10 nm. The system trades sensitivity for a larger field of view with the resultant detection sensitivity equal to 70 nW (or 1 μW · cm − 2) at 635 nm.

AB - A low-cost laser detection system based on coherence detection has been developed and is able to detect weak, continuous laser sources even against bright background light. The system is composed of a Mach–Zehnder interferometer with one arm modified with a piezo-mounted mirror to modulate the path length. We introduce methods to determine the laser wavelength and to extend the horizontal field of view of the detector. To widen the field of view, a cone mirror is added to the system while the additional use of a camera allows the direction of the incoming laser beam to be studied. The wavelength from three different lasers is estimated with the use of the modulation amplitude of the piezo mirror. The preliminary results demonstrate that a 360-deg horizontal field of view can be achieved and that the direction of the laser beam can be determined with an estimated angular precision of ±5 deg. Moreover, the wavelength can be determined with a precision of ±10 nm. The system trades sensitivity for a larger field of view with the resultant detection sensitivity equal to 70 nW (or 1 μW · cm − 2) at 635 nm.

KW - coherence discrimination

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KW - field of view

KW - laser detection

KW - laser direction

KW - wavelength determination

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Low-cost laser detection system with a 360-deg horizontal field of view

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