Dataset for: Levitated Magnetomechanical and Optomechanical Systems as Ultra-Sensitive Resonators
Dataset for: Levitated Magnetomechanical and Optomechanical Systems as Ultra-Sensitive Resonators
Data accompanying the PhD thesis titled "Levitated Magnetomechanical and Optomechanical Systems as Ultra-Sensitive Resonators" by Christopher Timberlake.
The data files appended .trc and .csv are voltage vs time datasets that can be read and analysed using Optoanalysis (https://github.com/AshleySetter/optoanalysis). More information on each specific file is in the readme.txt file.
Some of the data presented in this thesis has been published in journal articles. The articles are:
Acceleration sensing with magnetically levitated oscillators above a superconductor, C. Timberlake, G. Gasbarri, A. Vinante, A. Setter, and H. Ulbricht, Applied Physics Letters 115, 224101 (2019).
Static force characterization with Fano anti-resonance in levitated optomechanics, C. Timberlake, M. Toros, D. Hempston, G. Winstone, M. Rashid, and H. Ulbricht, Applied Physics Letters 114, 023104 (2019).
Ultralow mechanical damping with Meissner-levitated ferromagnetic microparticles, A. Vinante, P. Falferi, G. Gasbarri, A. Setter, C. Timberlake, and H. Ulbricht, Physical Review Applied 13, 064027 (2020).
University of Southampton
Timberlake, Christopher
0389857f-3bb0-4e90-96f0-363591417d50
Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
Hempston, David William
0100bb52-ca44-452f-93e9-c38c5a56ee6b
Vinante, Andrea
f023d600-0537-41c4-b307-bf9cdfc1f56c
Timberlake, Christopher
0389857f-3bb0-4e90-96f0-363591417d50
Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
Hempston, David William
0100bb52-ca44-452f-93e9-c38c5a56ee6b
Vinante, Andrea
f023d600-0537-41c4-b307-bf9cdfc1f56c
Timberlake, Christopher, Hempston, David William and Vinante, Andrea
(2020)
Dataset for: Levitated Magnetomechanical and Optomechanical Systems as Ultra-Sensitive Resonators.
University of Southampton
doi:10.5258/SOTON/D1629
[Dataset]
Abstract
Data accompanying the PhD thesis titled "Levitated Magnetomechanical and Optomechanical Systems as Ultra-Sensitive Resonators" by Christopher Timberlake.
The data files appended .trc and .csv are voltage vs time datasets that can be read and analysed using Optoanalysis (https://github.com/AshleySetter/optoanalysis). More information on each specific file is in the readme.txt file.
Some of the data presented in this thesis has been published in journal articles. The articles are:
Acceleration sensing with magnetically levitated oscillators above a superconductor, C. Timberlake, G. Gasbarri, A. Vinante, A. Setter, and H. Ulbricht, Applied Physics Letters 115, 224101 (2019).
Static force characterization with Fano anti-resonance in levitated optomechanics, C. Timberlake, M. Toros, D. Hempston, G. Winstone, M. Rashid, and H. Ulbricht, Applied Physics Letters 114, 023104 (2019).
Ultralow mechanical damping with Meissner-levitated ferromagnetic microparticles, A. Vinante, P. Falferi, G. Gasbarri, A. Setter, C. Timberlake, and H. Ulbricht, Physical Review Applied 13, 064027 (2020).
Restricted to System admin until 10 November 2021.
Archive
Data.zip
- Dataset
Restricted to System admin until 10 November 2021.
Archive
Chapter_6.zip
- Dataset
Restricted to System admin until 10 November 2021.
More information
Published date: 10 November 2020
Identifiers
Local EPrints ID: 445028
URI: http://eprints.soton.ac.uk/id/eprint/445028
PURE UUID: d2167ad4-e7ce-4e4b-bcc0-d5a16ab26972
Catalogue record
Date deposited: 18 Nov 2020 17:30
Last modified: 19 Nov 2020 17:31
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Contributors
Creator:
Christopher Timberlake
Creator:
David William Hempston
Creator:
Andrea Vinante
University divisions
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