Abstract
Closed photon orbits around isolated black holes are related to important aspects of black hole physics, such as strong lensing, absorption cross section of null particles and the way that black holes relax through quasinormal ringing. When two black holes are present -- such as during the inspiral and merger events of interest for gravitational-wave detectors -- the concept of closed photon orbits still exists, but its properties are basically unknown. With these applications in mind, we study here the closed photon orbits of two different static black hole binaries. The first one is the Majumdar-Papapetrou geometry describing two extremal, charged black holes in equilibrium, while the second one is the double sink solution of fluid dynamics, which describes (in a curved-spacetime language) two "dumb" holes. For the latter solution, we also characterize its dynamical response to external perturbations, and study how it relates to the photon orbits. In addition, we compute the ergoregion of such spacetime and show that it does not coincide with the event horizon.
Highlights
Closed photon orbits around isolated black holes are related to important aspects of black hole physics, such as strong lensing, absorption cross section of null particles and the way that black holes relax through quasinormal ringing
High-frequency electromagnetic or gravitational waves propagating around extremely compact objects—such as black holes (BHs)—can travel in closed orbits
We have given the first steps in our understanding of wave dynamics around BH binaries
Summary
High-frequency electromagnetic or gravitational waves propagating around extremely compact objects—such as black holes (BHs)—can travel in closed orbits. These can be either stable or unstable, according to whether or not small deviations from the orbit grow away from it as time evolves. Several BH phenomena are directly related to the presence of a photon sphere [1,2,3,4,5,6,7,8,9,10,11,12,13].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
