JLRipley314 / teuk-fortran-2020
Numerically solve the Teukolsky equation for the linear perturbation of psi4, reconstruct the metric from psi4, and solve the second order teukolsky equation for the second order perturbation of psi4, all about a Kerr black hole background.
☆11Updated last year
Alternatives and similar repositories for teuk-fortran-2020:
Users that are interested in teuk-fortran-2020 are comparing it to the libraries listed below
- Tools for computing spin-weighted spheroidal harmonics and their associated eigenvalues☆12Updated 3 weeks ago
- Computing solutions to the frequency-domain radial Teukolsky equation with the Generalized Sasaki-Nakamura (GSN) formalism in julia☆14Updated this week
- Notebooks illustrating how to use the sxs python package☆12Updated 6 months ago
- A spherically symmetric BSSN code used for teaching NR☆26Updated last week
- Notebooks for the ICERM workshop tutorials on surrogate models.☆11Updated 2 years ago
- Python package for computing Kerr quasinormal mode frequencies, separation constants, and spherical-spheroidal mixing coefficients☆40Updated 6 months ago
- Bayesian analysis of black hole ringdowns in gravitational-wave data.☆33Updated this week
- A Mathematica package for generating gravitational waveforms for nonspinning eccentric binary black hole mergers☆12Updated 6 years ago
- A Mathematica package for the numerical solution of ODE eigenvalue problems via a pseudospectral method using the Bernstein basis.☆11Updated 2 years ago
- An adiabatic waveform generator using black hole perturbation theory☆15Updated 3 months ago
- Simple slow-rotation neutron star structure solver☆12Updated 4 years ago
- General-relativistic ray tracing and radiative transfer in arbitrary spacetimes☆14Updated last month
- My course in gravitational wave data analysis at a summer school in Copenhagen in 2017.☆24Updated 7 years ago
- Website for the Black Hole Perturbation Toolkit☆19Updated last week
- Numerical Solutions to the Structure of Neutron Stars using EoS☆13Updated 5 years ago
- Code for evolving a Dark Matter minispike under the influence of a perturbing body, injecting energy through dynamical friction.☆14Updated 2 years ago
- Gravitational Wave dEtector desigN Toolkit☆23Updated last year
- Python/numba code for manipulating time-dependent functions of spin-weighted spherical harmonics on future null infinity☆18Updated last month
- ☆18Updated 3 weeks ago
- The python code for creating the transfer function, sensitivity curve and PI curve in 1901.09624☆10Updated 3 years ago
- ☆9Updated 3 years ago
- Python library for computing properties of stable and plunging orbits around a spinning black hole☆25Updated 8 months ago
- Gravitational waves waveform models in pure Python language☆14Updated 2 years ago
- Python version of the the IMRPhenomD (non-precessing) algorithm by Khan et. al. (https://arxiv.org/abs/1508.07253, https://arxiv.org/abs…☆12Updated 5 years ago
- Code for the study "Gravitational wave inference on a numerical-relativity simulation of a black hole merger beyond general relativity"☆9Updated 2 years ago
- PhD class "Black Holes and Gravitational Waves"; University of Birmingham and MPAGS☆15Updated 4 years ago
- Repository for the 4th G2Net Training School, March 28-31, 2023, Thessaloniki☆17Updated last year
- Repository for the PyCBC Inference workshop in Portsmouth, UK, 14 May - 16 May 2019.☆13Updated 4 years ago
- A solver for Boson Stars using a shooting method to calculate solutions☆10Updated 2 years ago