Gonçalo Gonçalves
Full Name: Goncalo Filipe Mota Goncalves
Postion: PhD Student
Degrees: Msc in Theoretical Physics, Faculty of Sciences of the University of Porto, 2024; BSC in Physics, Faculty of Sciences of the University of Coimbra, 2021
The group's research on strong gravity involves finding analytical and numerical solutions of Einstein's theory of general relativity, and many of its extensions, either in vacuum or coupled to various types of matter. For our latest developments/activities in this area, please see the listing at the end of this article.
The prime examples of (relativistic) strong gravitational systems are Black Holes. They are truly unifying objects of all physics. The understanding of their formation and dynamics requires the laws of all four fundamental forces, and their physics is relevant not only for astrophysics and cosmology but for a variety of topics within high energy physics.
See here a movie made by the COST action `Black holes in a violent universe', in which our group participates, for a visual overview of different types of black holes.
Full Name: Goncalo Filipe Mota Goncalves
Postion: PhD Student
Degrees: Msc in Theoretical Physics, Faculty of Sciences of the University of Porto, 2024; BSC in Physics, Faculty of Sciences of the University of Coimbra, 2021
Nonlinear effects in black hole perturbation theory may be important for describing a black hole ringdown, as suggested by recent works. I will describe a new class of "quadratic" quasi-normal modes at second order in perturbation theory. Remarkably, not only their frequency but also their amplitude is completely determined by the linear modes themselves.
Probing Ultralight Bosons with Binary Black Holes
Daniel Baumann, Horng Sheng Chia, Rafael A. Porto
Laura Bernard visited us in the beginning of April 2025. Thank you for the visit and seminar Laura!
A plausible model of inflation driven by strong gravitational wave turbulence
Sebastien Galtier (LPP), Jason Laurie, Sergey V. Nazarenko (INPHYNI)