Broadband realtime measurement of optical Einstein–Podolsky–Rosen states using optical parametric amplifiers
Data files
Nov 27, 2024 version files 4.75 GB
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bEPR_for_dryad.zip
4.75 GB
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README.md
1.57 KB
Abstract
Entanglement is a key resource for various quantum technologies. Besides the purity of entanglement, the available bandwidth also plays a crucial role in quantum information processing with light, as it directly determines the clock speed of processing. While many efforts have been made to enhance the bandwidth of optical entanglement resources, they have generally been limited to a few tens of MHz at best. In this work, we report the real-time measurement of EPR states over a broad bandwidth of 60 GHz, achieved using a fast homodyne detection technique supplemented by phase-sensitive amplification. The quantum correlation level exceeds 4.5 dB at its peak, which is sufficient for applications of several quantum technologies. This research marks a significant milestone in the advancement of high-speed optical quantum information processing.
https://doi.org/10.5061/dryad.dbrv15fbq
Description of the data and file structure
This dataset contains the raw data from the entanglement measurement output. Each folder stores the results of two homodyne measurements, collected while varying different experimental parameters. The homodyne measurements are taken in the x and p quadrature bases for a specific experimental parameter. All data are saved in the HDF5 (.h5) format.
Files and variables
File: bEPR_for_dryad.zip
Description: This file contains
1, 20230807_EPR1_pump1
2, 20230807_EPR2_pump2
3, 20230807_EPR3_loss
4, 20230808_bEPR_circuitnoise
1-3 correspond to the results of experiment where pump1, pump2, loss are the variable parameter, respectively. 4 corresponds to the circuit noise data of homodyne 1 and 2.
1-3 contain subfolders named “^^mW^^mW^^dB” .The first ^^ represents pump1 power, the second represents pump2 power, and the last represents additional loss.
Each subfolder contains files named “^^_hd^^.h5”.\
The first ^^ has four variations:
- “x” represents the result of the x basis measurement in homodyne detection,
- “p” represents the result of the p basis measurement,
- “shot_before” indicates the shot noise level before the measurement,
- “shot_after” indicates the shot noise level after the measurement.
The second ^^ represents the identifier of one of the two homodyne detectors.
This dataset contains the raw data from the entanglement measurement output. Each folder stores the results of two homodyne measurements, collected while varying different experimental parameters. The homodyne measurements are taken in the x and p quadrature bases for a specific experimental parameter. All data are saved in h5 format.