Add to ORKGMotivated by the possible existence of string axions with ultralight masses, we study gravitational radiation from an axion cloud around a rotating black hole (BH). The axion cloud extracts the rotation energy of the BH by superradiant instability, while it loses energy through the emission of gravitational waves (GWs). In this paper, GWs are treated as perturbations on a fixed back-ground spacetime to derive the energy emission rate. We give an analytic approximate formula for the case where the axion Compton wavelength is much larger than the BH radius, and then present numerical results without approximation. The energy loss rate of the axion cloud through GW emission turns out to be smaller than the energy gain rate of the axion cloud b...
The axion or axion-like particle motivated from a natural solution of strong CP problem or string th...
Gravitational waves provide a novel way to probe axions or axion-like particles coupled to a dark ph...
Ultra light axion fields, motivated by the string theory, form a large condensate (axion cloud) arou...
Motivated by possible existence of stringy axions with ultralight mass, we study the behavior of an ...
Light axions (ma ≲ 10-10 eV) can form dense clouds around rapidly rotating astrophysical black hole...
It has recently been suggested that the presence of a plenitude of light axions, an Ax-iverse, is ev...
We use the scattering method to calculate the gravitational wave from axions annihilation in the axi...
Superradiant instabilities of spinning black holes (BHs) can be used to impose strong constraints on...
Under some conditions, light boson fields grow exponentially around a rotating black hole, called th...
Under some conditions, light boson fields grow exponentially around a rotating black hole, called th...
We use the Teukolsky formalism to calculate the gravitational radiation from a non-axi\-symmetric cl...
We use the Teukolsky formalism to calculate the gravitational radiation from a non-axi\-symmetric cl...
The nature of dark matter is one of the longest-standing puzzles in science. Axions or axionlike par...
We use the Teukolsky formalism to calculate the gravitational radiation from a non-axi\-symmetric cl...
The coupling between scalar and vector fields has a long and interesting history. Axions are one key...
The axion or axion-like particle motivated from a natural solution of strong CP problem or string th...
Gravitational waves provide a novel way to probe axions or axion-like particles coupled to a dark ph...
Ultra light axion fields, motivated by the string theory, form a large condensate (axion cloud) arou...
Motivated by possible existence of stringy axions with ultralight mass, we study the behavior of an ...
Light axions (ma ≲ 10-10 eV) can form dense clouds around rapidly rotating astrophysical black hole...
It has recently been suggested that the presence of a plenitude of light axions, an Ax-iverse, is ev...
We use the scattering method to calculate the gravitational wave from axions annihilation in the axi...
Superradiant instabilities of spinning black holes (BHs) can be used to impose strong constraints on...
Under some conditions, light boson fields grow exponentially around a rotating black hole, called th...
Under some conditions, light boson fields grow exponentially around a rotating black hole, called th...
We use the Teukolsky formalism to calculate the gravitational radiation from a non-axi\-symmetric cl...
We use the Teukolsky formalism to calculate the gravitational radiation from a non-axi\-symmetric cl...
The nature of dark matter is one of the longest-standing puzzles in science. Axions or axionlike par...
We use the Teukolsky formalism to calculate the gravitational radiation from a non-axi\-symmetric cl...
The coupling between scalar and vector fields has a long and interesting history. Axions are one key...
The axion or axion-like particle motivated from a natural solution of strong CP problem or string th...
Gravitational waves provide a novel way to probe axions or axion-like particles coupled to a dark ph...
Ultra light axion fields, motivated by the string theory, form a large condensate (axion cloud) arou...