A Homodyne Detector Integrated onto a Photonic Chip for Measuring Quantum States and Generating Random Numbers

Data output from experiment and theory sub projects around quantum enhanced sensors. Using quantum states of light to enhance optical measurement precision and accuracy.

Creator(s) Francesco Raffaelli, Giacomo Ferranti, Dylan Mahler, Philip Sibson, Jake Kennard, Alberto Santamato, Gary Sinclair, Damien Bonneau, Mark Thompson, Jonathan Matthews
Funder Engineering and Physical Sciences Research Council
Publication date 09 Jan 2018
Language eng
Publisher University of Bristol
Licence Non-Commercial Government License for public sector information
DOI 10.5523/bris.2zoorhel0xbsr2dbosecymaocl
Complete download (zip) https://data.bris.ac.uk/datasets/tar/2zoorhel0xbsr2dbosecymaocl.zip
Citation Francesco Raffaelli, Giacomo Ferranti, Dylan Mahler, Philip Sibson, Jake Kennard, Alberto Santamato, Gary Sinclair, Damien Bonneau, Mark Thompson, Jonathan Matthews (2018): A Homodyne Detector Integrated onto a Photonic Chip for Measuring Quantum States and Generating Random Numbers. https://doi.org/10.5523/bris.2zoorhel0xbsr2dbosecymaocl
Total size 2.7 GiB

Data Resources