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Autores principales: Sabbah, Mohammed, Mears, Robbie, Harrington, Kerrianne, Wadsworth, William J., Stone, James M., Birks, Tim A., Travers, John C.
Formato: Preprint
Publicado: 2024
Materias:
Acceso en línea:https://arxiv.org/abs/2412.10170
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author Sabbah, Mohammed
Mears, Robbie
Harrington, Kerrianne
Wadsworth, William J.
Stone, James M.
Birks, Tim A.
Travers, John C.
author_facet Sabbah, Mohammed
Mears, Robbie
Harrington, Kerrianne
Wadsworth, William J.
Stone, James M.
Birks, Tim A.
Travers, John C.
contents Supercontinuum generation in the ultraviolet spectral region is challenging in solid-core optical fibres due to solarization and photodarkening. Antiresonant hollow-core fibres have overcome this limitation and have been shown to guide ultraviolet light at sufficient intensity for ultraviolet spectral broadening through nonlinear optics in the filling gas. However, their ultraviolet guidance is usually limited by discontinuities caused by the presence of high-loss resonance bands. In this paper, we report on resonance-free supercontinuum generation spanning from the deep ultraviolet to the near infrared achieved through modulation instability in an argon-filled antiresonant hollow-core fibre. The fibre was directly fabricated using the stack-and-draw method with a wall thickness of approximately 90 nm, enabling continuous spectral coverage from the deep ultraviolet to the near infrared. We also report numerical simulations to investigate the supercontinuum bandwidth and the factors limiting it, finding that the overall dispersion landscape, and associated group-velocity matching of cross-phase modulation interactions, is the dominant constraint on spectral extension.
format Preprint
id arxiv_https___arxiv_org_abs_2412_10170
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Resonance-free deep ultraviolet to near infrared supercontinuum generation in a hollow-core antiresonant fibre
Sabbah, Mohammed
Mears, Robbie
Harrington, Kerrianne
Wadsworth, William J.
Stone, James M.
Birks, Tim A.
Travers, John C.
Optics
Supercontinuum generation in the ultraviolet spectral region is challenging in solid-core optical fibres due to solarization and photodarkening. Antiresonant hollow-core fibres have overcome this limitation and have been shown to guide ultraviolet light at sufficient intensity for ultraviolet spectral broadening through nonlinear optics in the filling gas. However, their ultraviolet guidance is usually limited by discontinuities caused by the presence of high-loss resonance bands. In this paper, we report on resonance-free supercontinuum generation spanning from the deep ultraviolet to the near infrared achieved through modulation instability in an argon-filled antiresonant hollow-core fibre. The fibre was directly fabricated using the stack-and-draw method with a wall thickness of approximately 90 nm, enabling continuous spectral coverage from the deep ultraviolet to the near infrared. We also report numerical simulations to investigate the supercontinuum bandwidth and the factors limiting it, finding that the overall dispersion landscape, and associated group-velocity matching of cross-phase modulation interactions, is the dominant constraint on spectral extension.
title Resonance-free deep ultraviolet to near infrared supercontinuum generation in a hollow-core antiresonant fibre
topic Optics
url https://arxiv.org/abs/2412.10170