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University of Cambridge > Talks.cam > DAMTP Friday GR Seminar > Impact of multiple modes on the black-hole superradiant instability
Impact of multiple modes on the black-hole superradiant instabilityAdd to your list(s) Download to your calendar using vCal
If you have a question about this talk, please contact Nathan Johnson-McDaniel. Ultralight bosonic fields in the mass range $\sim (10-10{-11})\,{\rm eV}$ can trigger a superradiant instability that extracts energy and angular momentum from an astrophysical black hole with mass $M\sim(5,10^{10})M_\odot$, forming a nonspherical, rotating condensate around it. So far, most studies of the evolution and end-state of the instability have been limited to initial data containing only the fastest growing superradiant mode. After a brief review of superradiance in flat and black-hole spacetimes, we study the evolution of multimode data in a quasi-adiabatic approximation and we show that the dynamics is much richer and depend strongly on the energy of the seed, on the relative amplitude between modes, and on the gravitational coupling. If the seed energy is a few percent of the black-hole mass, a black hole surrounded by a mixture of superradiant and nonsuperradiant modes with comparable amplitudes might not undergo a superradiant unstable phase, depending on the value of the boson mass. If the seed energy is smaller, as in the case of an instability triggered by quantum fluctuations, the effect of nonsuperradiant modes is negligible. We discuss the implications of these findings for current constraints on ultralight fields with electromagnetic and gravitational-wave observations (arXiv:1812.02758). This talk is part of the DAMTP Friday GR Seminar series. This talk is included in these lists:
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Friday 21 February 2020, 13:00-14:00