Published January 31, 2023
| Version v1
Dataset
Open
A Novel Architecture for room temperature microwave optomechanical experiments
Creators
- 1. Department of Physics, Royal Holloway University of London, Egham, Surrey, TW20 0EX, U.K.
- 2. Clarendon Laboratory, Department of Physics, University of Oxford, Oxford OX1 3PU, U.K.
Description
The dataset contains cavity optomechanical measurements of the Si3N4 membrane at room temperature. These datasets correspond to different techniques to extract single photon coupling rate g0. The files with the name starting with fig_2 are about the characterization of the microwave cavity (S21) and Si3N4 membrane (noise spectrum). The file names with initials as fig_3 is contains data of noise spectrum when Si3N4 membrane is driven by white noise using piezoelectric transducer. It is the file names with initials as fig_4 that are about the optically induced transparency/absorption, while the file names with initials as fig_5 are about the driven nonlinear Si3N4 membrane.
Notes
This research is supported by the Royal Society (UF150140, RGF\EA\180099, RGF\R1\180059,
RGF\EA\201047, RPG\2016\186, URF\R\211009).
Files
files.zip
Files
(388.0 kB)
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md5:e4a128b4692e54577b94c51dfb87d910
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Additional details
Related works
- Is required by
- arXiv:2208.03144 (arXiv)
Funding
- UK Research and Innovation
- Quantum Simulators for Fundamental Physics ST/T005998/1
- UK Research and Innovation
- Topological mesoscopic superfluidity of 3He EP/R04533X/1