There are 2 repositories under pycbc topic.
Learn how to use PyCBC to analyze gravitational-wave data and do parameter inference.
Repository for the PyCBC Inference workshop in Portsmouth, UK, 14 May - 16 May 2019.
Investigating the noise residuals around the gravitational wave event GW150914
Configuration files for the PyCBC-based online and offline searches.
Data Release associated with the PyCBC Inference paper. This includes posterior samples for GW150914, LVT151012, and GW151226 along with configuration files and run scripts,
Measuring the viewing angle of GW170817 with electromagnetic and gravitational waves
Scripts to reproduce the right hand plot shown in Figure 4 of https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.116.061102
Associated data release to the search for mergers of stellar-mass and sub-solar mass black holes
Results from the common equation of state constraint analysis of GW170817
Parameter estimates for the eccentricity of GW170817 and GW190425
Data release for "Binary black hole spectroscopy: a toupee test of GW190814 and GW190412"
Candidates from the O1 + O2 search for eccentric binary neutron star mergers
https://doi.org/10.1093/mnras/stab2417
Base CentOS 7 derived container for PyCBC installation
Data release for the BBH / BNS search of single-detector LIGO data during O1 and O2.
The Apple Silicon Gravitational-Wave Cluster project utilizes the power of Apple Silicon M2 processors to construct a high-performance cluster tailored for gravitational-wave astronomy.
Analysis of spin-harmonic modes of SpinTaylorF2 waveform model
Fast Parameter Estimation of Binary Mergers for Multimessenger Followup
This repository contains Akshita's work on her minor degree in Data Science.
Detection of Gravitational Waves