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Black hole superradiance is a fascinating process in general relativity and a unique window on ultralight particles beyond the standard model. Bosons -- such as axions and dark photons -- with Compton wavelengths comparable to size of astrophysical black holes grow exponentially to form large clouds, spinning down the black hole in the process, and produce monochromatic, continuous gravitational wave radiation. In the era of gravitational wave astronomy and increasingly sensitive observations of astrophysical black holes and their properties, superradiance of new light particles is a promising avenue to search for new physics in regimes inaccessible to terrestrial experiments. This workshop will bring together theorists, data analysts, and observers in particle physics, gravitational wave astronomy, strong gravity, and high energy astrophysics to explore the signatures of black hole superradiance and to study the current and future possibilities of searching for new particles with black holes.
- Richard Brito, Albert Einstein Institute
- Avery Broderick, Perimeter Institute & University of Waterloo
- Savas Dimopoulos, Stanford University
- Sam Dolan, University of Sheffield
- Sergei Dubovsky, New York University
- Carl-Johan Haster, CITA
- Frans Pretorius, Princeton University
- Keith Riles, University of Michigan
- James Steiner, Massachussetts Institute of Technology
- Salvatore Vitale, Massachussetts Institute of Technology
- Sylvia Zhu, Albert Einstein Institute
- Michalis Agathos, University of Cambridge
- Asimina Arvanitaki, Perimeter Institute
- James Bardeen, University of Washington
- Masha Baryakhtar, Perimeter Institute
- Pablo Bosch, Perimeter Institute
- Richard Brito, Albert Einstein Institute
- Avery Broderick, Perimeter Institute & University of Waterloo
- Horng Sheng Chia, University of Amsterdam
- Vladimir Dergachev, Albert Einstein Institute
- Savas Dimopoulos, Stanford University
- Sam Dolan, University of Sheffield
- Sergei Dubovsky, New York University
- William East, Perimeter Institute
- Marios Galanis, Stanford University
- Javier Garcia, California Institute of Technology
- Carl-Johan Haster, CITA
- Junwu Huang, Perimeter Institute
- Maximilian Isi, California Institute of Technology
- Badri Krishnan, Albert Einstein Institute
- David Kubzinak, Perimeter Institute
- Robert Lasenby, Perimeter Institute
- Katarina Martinovic, Perimeter Institute
- Frans Pretorius, Princeton University
- Jing Ren, University of Toronto
- Keith Riles, University of Michigan
- Olivier Simon, Stanford University
- James Steiner, Massachussetts Institute of Technology
- Mae Hwee Teo, Stanford University
- Salvatore Vitale, Massachussetts Institute of Technology
- Sylvia Zhu, Albert Einstein Institute
- Aaron Zimmerman, CITA
Wednesday, May 9, 2018
Time |
Event |
Location |
10:00 – 10:30am |
Registration |
Reception |
10:30 – 11:30am |
Savas Dimopoulos, Stanford University |
Bob Room |
11:30 – 12:30pm |
Sam Dolan, University of Sheffield |
Bob Room |
12:30 – 2:00pm |
Lunch |
Bistro – 2nd Floor |
2:00 – 3:00pm |
Colloquium |
Time Room |
3:00 – 3:30pm |
Coffee Break |
Bistro – 1st Floor |
3:30 – 4:30pm |
Avery Broderick, Perimeter Institute |
Bob Room |
4:30 – 5:30pm |
James Steiner, Massachussetts Institute of Technology |
Bob Room |
Thursday, May 10, 2018
Time |
Event |
Location |
10:00 – 11:00am |
Frans Pretorius, Princeton University |
Bob Room |
11:00 – 11:30am |
Coffee Break |
Bistro – 1st Floor |
11:30 – 12:30pm |
Salvatore Vitale, Massachussetts Institute of Technology |
Bob Room |
12:30 – 2:30pm |
Lunch |
Bistro – 2nd Floor |
2:30 – 3:30pm |
Keith Riles, University of Michigan |
Bob Room |
3:30 – 4:00pm |
Coffee Break |
Bistro – 1st Floor |
4:00 – 5:00pm |
Sylvia Zhu, Albert Einstein Institute |
Bob Room |
6:00pm Onwards |
Banquet |
Bistro 2nd Floor |
Friday, May 11, 2018
Time |
Event |
Location |
10:00 – 11:00am |
Carl-Johan Haster, CITA |
Bob Room |
11:00 – 11:30am |
Coffee Break |
Bistro – 1st Floor |
11:30 – 12:30pm |
Richard Brito, Albert Einstein Institute |
Bob Room |
12:30 – 2:30pm |
Lunch |
Bistro – 2nd Floor |
2:30 – 3:30pm |
Sergei Dubovsky, New York University |
Bob Room |
Conclusions and Outlook
Gravitational wave searches for ultralight bosons
Ultralight bosons can induce superradiant instabilities in spinning black holes, tapping their rotational energy to trigger the growth of a bosonic condensate.
Where do black hole binaries come from, and can we actually know that?
Directed and targeted searches for continuous gravitational waves
Traditionally, searches for continuous gravitational waves have looked for neutron stars with varying mass or current quadrupoles. If information is known about the source — such as a sky position or even a full ephemeris — this information can be used to run a more sensitive search around the known parameters of that source. These directed and targeted searches have set new and ever-improving constraints on the properties of individual neutron stars.
LIGO and Virgo continuous wave searches - Overview and all-sky searches
The Continuous Waves (CW) Search Group of the LIGO Scientific Collaboration and Virgo Collaboration carries out a diverse suite of searches for a diverse set of possible CW sources. Assumptions underlying these searches will be discussed, along with strategies used so far to keep our eyes wide open while also giving due attention to the most promising sources. One important assumption to date has been that fast-spinning, non-axisymmetric neutron stars are the most promising class of CW sources.
Characterization of compact objects with present and future ground-based gravitational-wave detectors
Superradiance Beyond the Linear Regime
Measuring Stellar-Mass Black Hole Spins via X-ray Spectroscopy
Superradiant instabilities and rotating black holes
Superradiant instabilities and rotating black holes
Pages
Scientific Organizers:
- Asimina Arvanitaki, Perimeter Institute
- Masha Baryakhtar, Perimeter Institute
- William East, Perimeter Institute
- Robert Lasenby, Perimeter Institute