ICTS:30667

Video URL

Primordial Black Holes from the Supercooled Phase Transitions with Radiative Symmetry breaking

Primordial Black Holes from the Supercooled Phase Transitions with Radiative Symmetry breaking

(2025). Primordial Black Holes from the Supercooled Phase Transitions with Radiative Symmetry breaking. SciVideos. https://youtube.com/live/2lxSt5QV1Sw

Primordial Black Holes from the Supercooled Phase Transitions with Radiative Symmetry breaking. SciVideos, Jan. 03, 2025, https://youtube.com/live/2lxSt5QV1Sw 

          @misc{ scivideos_ICTS:30667,
            doi = {},
            url = {https://youtube.com/live/2lxSt5QV1Sw},
            author = {},
            keywords = {},
            language = {en},
            title = {Primordial Black Holes from the Supercooled Phase Transitions with Radiative Symmetry breaking},
            publisher = {},
            year = {2025},
            month = {jan},
            note = {ICTS:30667 see, \url{https://scivideos.org/index.php/icts-tifr/30667}}
          }
Francesco Rescigno
Talk numberICTS:30667
Source RepositoryICTS-TIFR
Collection

Abstract

First-order phase transitions, which take place when the symmetries are predominantly broken (and masses are then generated) through radiative corrections, produce observable gravitational waves and primordial black holes. I illustrate a model-independent approach that is valid for large-enough supercooling to quantitatively describe these phenomena in terms of few parameters, which are computable once the model is specified.  In particular, in this talk, I describe the abundance, mass and spin of the produced primordial black holes in terms of the above-mentioned parameters. I identify regions of that parameter space allowed by the observational constrains where primordial black holes can account for a fraction of the (or the entire) dark matter abundance.