Quantum Astrometry project studies QIS techniques of two-photon interferometry, which could enable practically arbitrarily large synthesized apertures, opening completely new windows into astrophysical phenomena. We will experiment with several practical implementations of the technique to demonstrate how this can be deployed for cosmological and astronomical measurements derived from precise astrometry of stars and galaxies.
- BNL press release about Quantum Astrometry project
- The BNL QuantISED program: Abstract for 2021 renewal
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Our Collaboration
Brookhaven National Laboratory: Raphael Akel Abrahao, Paul Stankus, Anze Slosar, Justine Haupt, Dimitrios Katramatos, Gabriella Carini, Tom Tsang, Stephen Vintskevich, Ning Bao, Julian Martinez-Rincon, Michael Keach, Steven Bellavia, Jesse Crawford
Stony Brook University: Aaron Mueninghoff, Eden Figueroa, Sonali Gera
Oak Ridge National Laboratory: Raphael Pooser, Nick Peters, Marcel Demarteaux, Phil Evans, Joseph Lukens
National Research Council, Ottawa, Canada: Duncan England, Yingwen Zhang
Institute for Quantum Computing, University of Waterloo, Canada: Thomas Jennewein
Czech Technical University, Prague, Czech Republic: Michal Marcisovsky, Peter Svihra, Jakub Jirsa, Sergei Kulkov
EPFL, Switzerland: Edoardo Charbon, Claudio Bruschini, Ermanno Bernasconi, Samuel Burri
This work is supported by the DOE QuantISED program.
Quantum 2.0: Opportunities for DOE National Laboratory-led QuantISED Experiments arxiv.org/abs/2102.10996
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