A new approach for simulating PBH formation from generic curvature fluctuations with the Misner-Sharp formalism (2504.05813v2)

Abstract: Primordial Black Holes (PBHs) may have formed in the early Universe due to the collapse of super-horizon curvature fluctuations. Simulations of PBH formation have been essential for inferring the initial conditions that lead to black hole formation and for studying their properties and impact on our Universe. The Misner-Sharp formalism is commonly used as a standard approach for these simulations. Recently, type-II fluctuations, characterized by a non-monotonic areal radius, have gained interest. In the standard Misner-Sharp approach for simulating PBH formation with these fluctuations, the evolution equations exhibit divergent terms ($0/0$), which complicate and prevent the simulations. We formulate a new approach to overcome this issue in a simple manner by using the trace of the extrinsic curvature as an auxiliary variable, allowing simulations of type-II fluctuations within the Misner-Sharp formalism. Using a set of standard exponential-shaped curvature profiles, we apply our new approach and numerical code based on pseudospectral methods to study the time evolution of the gravitational collapse, threshold values of type A/B PBHs and PBH mass. Interestingly, we identify cases of type-II fluctuations that do not necessarily result in PBH formation.