Reconstructing Primordial Black Hole Power Spectra from Gravitational Waves

Reconstructing Primordial Black Hole Power Spectra from Gravitational Waves
Florian Kuhnel, Ioanna Stamou
arXiv:2404.06547v1 Announce Type: new
Abstract: A novel methodology for analysing the relation between the energy density in gravitational waves and primordial power spectra is developed. Focusing on scalar-induced gravitational radiation, this methodology is applied to a number of scenarios for the primordial black hole formation. Being differed from conventional Bayesian approaches, its advantages include directness and computational efficiency, which are crucial for handling the complex data characteristic of gravitational wave research. As an important application, it is demonstrated that it allows to systematically identify all scenarios consistent with current and future pulsar-timing-array data.arXiv:2404.06547v1 Announce Type: new
Abstract: A novel methodology for analysing the relation between the energy density in gravitational waves and primordial power spectra is developed. Focusing on scalar-induced gravitational radiation, this methodology is applied to a number of scenarios for the primordial black hole formation. Being differed from conventional Bayesian approaches, its advantages include directness and computational efficiency, which are crucial for handling the complex data characteristic of gravitational wave research. As an important application, it is demonstrated that it allows to systematically identify all scenarios consistent with current and future pulsar-timing-array data.