Dataset for "Harnessing the mode mixing in optical fiber-tip cavities"
Dataset for "Harnessing the mode mixing in optical fiber-tip cavities"
Dataset to paper "Harnessing the mode mixing in optical fiber-tip cavities".
Paper abstract:
We present a systematic numerical study of Fabry-Perot optical cavities with Gaussian-shape mirrors formed between tips of optical fibers. Such cavities can be fabricated by laser machining of fiber tips and are promising systems for achieving strong coupling between atomic particles and an optical field as required for quantum information applications. Using a mode mixing matrix method, we analyze the cavity optical eigenmodes and corresponding losses depending on a range of cavity-shape parameters, such as mirror radius of curvature, indentation depth and cavity length. The Gaussian shape of the mirrors causes mixing of optical modes in the cavity. We investigate the effect of the mode mixing on the coherent atom-cavity coupling as
well as the mode matching between the cavity and a single-mode optical fiber. While the mode mixing is associated with increased cavity losses, it can also lead to an enhancement of the local optical field. We demonstrate that around the resonance between the fundamental and 2nd order Laguerre-Gaussian modes of the cavity it is possible to obtain 50% enhancement of the atom-cavity coupling at the cavity center while still maintaining low cavity losses and high cavity-fiber optical coupling.
Funded by EPSRC: UK Quantum Technology Hub: NQIT - Networked Quantum Information Technologies (EP/M013243/1)
University of Southampton
Podoliak, Nina
0908b951-00a7-48a5-bc82-631640910b9c
Takahashi, Hiroki
3baa48a9-a4ae-4577-a4ea-9b03376c013f
Keller, Mathias
59d4d1aa-53dc-458c-a39f-18c071ae6b44
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Podoliak, Nina
0908b951-00a7-48a5-bc82-631640910b9c
Takahashi, Hiroki
3baa48a9-a4ae-4577-a4ea-9b03376c013f
Keller, Mathias
59d4d1aa-53dc-458c-a39f-18c071ae6b44
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Podoliak, Nina, Takahashi, Hiroki, Keller, Mathias and Horak, Peter
(2017)
Dataset for "Harnessing the mode mixing in optical fiber-tip cavities".
University of Southampton
doi:10.5258/SOTON/403718
[Dataset]
Abstract
Dataset to paper "Harnessing the mode mixing in optical fiber-tip cavities".
Paper abstract:
We present a systematic numerical study of Fabry-Perot optical cavities with Gaussian-shape mirrors formed between tips of optical fibers. Such cavities can be fabricated by laser machining of fiber tips and are promising systems for achieving strong coupling between atomic particles and an optical field as required for quantum information applications. Using a mode mixing matrix method, we analyze the cavity optical eigenmodes and corresponding losses depending on a range of cavity-shape parameters, such as mirror radius of curvature, indentation depth and cavity length. The Gaussian shape of the mirrors causes mixing of optical modes in the cavity. We investigate the effect of the mode mixing on the coherent atom-cavity coupling as
well as the mode matching between the cavity and a single-mode optical fiber. While the mode mixing is associated with increased cavity losses, it can also lead to an enhancement of the local optical field. We demonstrate that around the resonance between the fundamental and 2nd order Laguerre-Gaussian modes of the cavity it is possible to obtain 50% enhancement of the atom-cavity coupling at the cavity center while still maintaining low cavity losses and high cavity-fiber optical coupling.
Funded by EPSRC: UK Quantum Technology Hub: NQIT - Networked Quantum Information Technologies (EP/M013243/1)
Text
Quantum_technology_writepaper_GaussCavity_Final_dataset_description.txt
- Text
Archive
Quantum_technology_writepaper_GaussCavity_Final_dataset_figure_data.zip
- Dataset
More information
Published date: 2017
Organisations:
Quantum, Light & Matter Group, Optoelectronics Research Centre
Identifiers
Local EPrints ID: 403718
URI: http://eprints.soton.ac.uk/id/eprint/403718
PURE UUID: 69091c07-0257-44ac-a5f8-7240217e6ddc
Catalogue record
Date deposited: 30 Mar 2017 01:57
Last modified: 04 Nov 2023 02:45
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Contributors
Creator:
Nina Podoliak
Creator:
Hiroki Takahashi
Creator:
Mathias Keller
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