Speaker
Description
Primordial Black Holes (PBHs) are possible sources of a gravitational-wave background (GWB), detectable with LISA and the next observing runs of LIGO/Virgo/Kagra. In case of a detection, it will be crucial to distinguish the possible sources of this GWB. We propose to exploit the duty cycle that quantifies the number of sources present in the time domain signal, which can be very different depending on the nature and population of the sources. We focus on early PBHs binaries, for extended realistic PBH mass distributions including the effects of the QCD epoch on the PBH formation, typically boosted in the solar-mass range. We compute the duty cycle and the contribution of the different PBH masses. We derive the ratio between the shot-noise, popcorn and continuous GWBs, associated to different regimes of the duty cycle. These are then compared to other typical sources. We find that PBH models lead to specific and distinguishable predictions compared to astrophysical sources or cosmological backgrounds. Our work therefore emphasizes the interest of developing specific analysis tools of the duty cycle that should ideally include a frequency dependence.
