There are 2 repositories under black-holes topic.
Python package for computing Kerr quasinormal mode frequencies, separation constants, and spherical-spheroidal mixing coefficients
The science fiction calculation spreadsheet
A Julia package for computing discrete eigenvalues of second order ODEs
Defining eccentricity for GW astronomy
Extensible spacetime agnostic general relativistic ray-tracing (GRRT).
A collection of research notebooks in *cosmology*.
Python package for computing Kerr quasinormal mode frequencies, separation constants, and spherical-spheroidal mixing coefficients
Analysis pipeline capable of searching for dark compact objects in the Milky Way through astrometric lensing in real or mock Gaia DR4 data.
Itsy-bitsy-teeny-weeny-black-hole-visualisation-machiney.
A set of codes which, using relativistic ray tracing, calculates the intensity profile of plasma being accreted onto a black hole.
Software and data release for "The directional isotropy of LIGO-Virgo binaries" by M. Isi, W. M. Farr and V. Varma (2023).
Associated data release to the search for mergers of stellar-mass and sub-solar mass black holes
A CPU/GPU Accelerated Multi-dimensional Magnetohydrodynamics Code
A highly parallel raytracing code in C++ using MPI
EHT and black hole fact sheet
A Cunningham transfer-function integrator for building relativistic lineprofile models.
Physics, Quantum, Classical, GR/SR.
Codes to classify the formation channel and generation of dynamically-formed black-hole binaries.
Data release for the BBH / BNS search of single-detector LIGO data during O1 and O2.
Black holes are mysterious cosmic objects with incredibly strong gravity that pulls everything, including light, into them. They form when massive stars collapse, creating a distortion in space and time. In this repository, using Python Coding we'll try to visualise them
BLACK holes MEasured and/or LOcated by DYnamical method
Code for MSci Project "Powerful AGN outflows at cosmic noon can solve the S_8 tension?"
Repository for ASP Undergraduate Thesis
Final group project of "Laboratory of Computational Physics mod. A" course at University of Padova
An implementation of the deflection angle in the equitorial plane as a function of the black hole mass, spin, and asymptotic impact parameters, as detailed in Iyer and Hansen (2009).
Black hole games 1 -- orbiting a star --general relativistic framework
Yuri Levin's website