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Dataset for: Levitated Magnetomechanical and Optomechanical Systems as Ultra-Sensitive Resonators

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]

Record type: 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).

Text
readme.txt - Text
Restricted to System admin until 10 November 2021.
Available under License Creative Commons Attribution.
Archive
Data.zip - Dataset
Restricted to System admin until 10 November 2021.
Available under License Creative Commons Attribution.
Archive
Chapter_6.zip - Dataset
Restricted to System admin until 10 November 2021.
Available under License Creative Commons Attribution.

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
ORCID for Andrea Vinante: ORCID iD orcid.org/0000-0002-9385-2127

Catalogue record

Date deposited: 18 Nov 2020 17:30
Last modified: 19 Nov 2020 17:31

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Contributors

Research team head: Hendrik Ulbricht
Creator: David William Hempston
Creator: Andrea Vinante ORCID iD

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