Recent advancements in photodetection technologies and spectroscopy hold the promise of transforming intensity interferometry, thereby revolutionizing observational Astronomy by enabling observations to resolve significantly fainter objects than currently possible. This workshop serves as a platform to unite experts in photodetection, theoretical and observational astronomy, as well as observers and theorists from diverse disciplines, to explore the multifaceted capabilities of intensity interferometry.
The workshop's focus spans three key objectives:
- Develop and disseminate novel ideas concerning science cases unique to intensity interferometry.
- Synthesize insights from observers and photodetector experts concerning the requisite technologies and experimental techniques which will allow for new science with intensity interferometry.
- Initiate a concentrated effort to propel the development of large telescope arrays dedicated to intensity interferometry.
This workshop will be exclusively organized in plenary sessions, providing ample time for engaging discussions among participants.
Scientific Organizers
Masha Baryakhtar - University of Washington
Neal Dalal - Perimeter Institute
Marios Galanis - Perimeter Institute
Junwu Huang - Perimeter Institute
Format results
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Intensity correlations: imaging and quantum optics in astrophysics
The French National Centre for Scientific Research -
Intensity Interferometry with the H.E.S.S. telescopes
ECAP, FAU Erlangen-Nürnberg -
Progress Toward Multi-Channel Intensity Interferometry with the Southern Connecticut Stellar Interferometer
Southern Connecticut State University -
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The Multi Aperture Spectroscopic Telescope: Status and potential as an intensity interferometry facility
Weizmann Institute of Science -
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Future Astrophysical Targets for Intensity Interferometry
Canadian Institute for Theoretical Astrophysics (CITA) -
Review of Photon Counters
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Massachusetts Institute of Technology
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National Institute of Standards and Technology
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High Throughput Single Photon Detection for effective SII
Quantum Optics and Quantum Information, FAU Erlangen -
Superconducting Nanowire Single Photon Detectors for Intensity Interferometry
National Aeronautics and Space Administration -