Searching for near-horizon quantum structures in the binary black-hole stochastic gravitational-wave background

Abstract

It has been speculated that quantum gravity corrections may lead to modifications to space-time geometry near black hole horizons. Such structures may cause reflections to gravitational waves, causing echoes that follow the main gravitational waves from binary black hole coalescence. We show that such echoes, if exist, will give rise to a stochastic gravitational-wave background, which is very substantial if the near-horizon structure has a near unity reflectivity for gravitational waves, readily detectable by Advanced LIGO. In case reflectivity is much less than unity, the background will mainly be arising from the first echo, with a level proportional to the power reflectivity of the near-horizon structure, but robust against uncertainties in the location of the structure --- as long as it is very close to the horizon. Sensitivity of third-generation detectors allows the detection of a background that corresponds to power reflectivity 10-3, if the uncertainties in the binary black-hole merger rate can be removed. We note that the echoes do alter the f2/3 power law of the background spectra at low frequencies, which is rather robust against the uncertainties.