Data Associated with the paper "Bell correlations between light and vibration"
- 1. Institue of Physics, Ecole Polytechnique Fédérale de Lausanne
- 2. Massachusetts Institute of Technology
- 3. Universität Basel
Description
Data Associated with the following paper
S. Tarrago Velez, V. Sudhir, N. Sangouard, C. Galland, Bell correlations between light and vibration at ambient conditions. Sci. Adv. 6, eabb0260 (2020).
A thorough explanation of the experiment performed is available there.
The file RawData_DelaySweep.zip contains the raw count information as obtained during the experiment. It is organized in different folders, each containing the data associated with one particular position of the delay stage. The file naming convention has the position, followed by the angles in detection (thA corresponds to the Stokes detection arm and thB corresponds to the anti-Stokes detection arm), and the acquisition time. As explained in the Supplementary Information Sec. 2.1, there are multiple measurements for each combination of delay and detection settings. The zip file also contains the file AnalysisBellv3.py, which was used to analyze the data. Running the file produces 'resultsBell.txt' and 'results_g2.txt', which contain the results for the CHSH parameter and the second order cross correlation, respectively.
The file RawData_Visibility.zip contains the raw count information obtained for the visibility curves, as expained in the Supplementary Information Sec. 2.1. The files follow the same naming convention as those in RawData_DelaySweep.zip. It also contains the file AnalysisCounts.py, which analyzes the data to obtain the correlation parameters.
The file BellCorrelations_CompiledData.xlsx is a spreadsheet containing the results of the analysis of the previous two sets of data.
Files
RawData_DelaySweep.zip
Additional details
Funding
- QTONE – Quantum Plasmomechanics with THz Phonons and Molecular Nano-junctions 820196
- European Commission
- QIA – Quantum Internet Alliance 820445
- European Commission
- Quantum dynamics of phonons in nanostructures and molecules PP00P2_170684
- Swiss National Science Foundation
- Certifying the quantum nature of complex systems from Bell's theorem PP00P2_179109
- Swiss National Science Foundation