Design of a Bragg fiber with large mode area for mid-infrared applications
Design of a Bragg fiber with large mode area for mid-infrared applications
The design of an all-solid, soft glass-based, large mode area Bragg fiber for effective single mode operation with mode effective area exceeding 1100 µm2 across the wavelength range of 2 - 4 µm is reported. The design adopts a new strategy to induce large differential loss between the fundamental and higher order modes for effective single-mode operation within few tens of centimetres length of an otherwise multimode fiber. In addition to having the potential for the targeted application in high power laser delivery systems; complemented by a zero dispersion wavelength at 2.04 µm and rapidly developing mid-IR optical sources, the proposed fiber should also be attractive for generation of high power, single mode and less divergent supercontinuum light over this mid-IR window.
21295-21304
Ghosh, Somnath
529d51f4-6be1-4815-85e3-560705454f3a
Dasgupta, Sonali
43e5e81a-3da3-4ba5-a5f4-2abe6301fc71
Varshney, Ravi K.
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Richardson, David J.
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Pal, Bishnu P.
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12 October 2011
Ghosh, Somnath
529d51f4-6be1-4815-85e3-560705454f3a
Dasgupta, Sonali
43e5e81a-3da3-4ba5-a5f4-2abe6301fc71
Varshney, Ravi K.
6931d2ae-0698-4897-8e8c-469c1073bd09
Richardson, David J.
ebfe1ff9-d0c2-4e52-b7ae-c1b13bccdef3
Pal, Bishnu P.
cfda4b98-9632-4488-b120-d224d3df9650
Ghosh, Somnath, Dasgupta, Sonali, Varshney, Ravi K., Richardson, David J. and Pal, Bishnu P.
(2011)
Design of a Bragg fiber with large mode area for mid-infrared applications.
Optics Express, 19 (22), .
(doi:10.1364/OE.19.021295).
Abstract
The design of an all-solid, soft glass-based, large mode area Bragg fiber for effective single mode operation with mode effective area exceeding 1100 µm2 across the wavelength range of 2 - 4 µm is reported. The design adopts a new strategy to induce large differential loss between the fundamental and higher order modes for effective single-mode operation within few tens of centimetres length of an otherwise multimode fiber. In addition to having the potential for the targeted application in high power laser delivery systems; complemented by a zero dispersion wavelength at 2.04 µm and rapidly developing mid-IR optical sources, the proposed fiber should also be attractive for generation of high power, single mode and less divergent supercontinuum light over this mid-IR window.
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oe-19-22-21295
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Published date: 12 October 2011
Organisations:
Optoelectronics Research Centre
Identifiers
Local EPrints ID: 301166
URI: http://eprints.soton.ac.uk/id/eprint/301166
ISSN: 1094-4087
PURE UUID: 99db12b7-a2d1-4b41-9dd8-967ce0cecd91
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Date deposited: 29 Feb 2012 15:08
Last modified: 15 Mar 2024 02:41
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Contributors
Author:
Somnath Ghosh
Author:
Sonali Dasgupta
Author:
Ravi K. Varshney
Author:
Bishnu P. Pal
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