There are 3 repositories under radial-velocities topic.
Create Your Own Metropolis-Hastings Markov Chain Monte Carlo Algorithm for Bayesian Inference (With Python)
Better Radial velocities from Stellar Spectroscopy via Machine Learning
Apply the Nested Sampling Monte Carlo algorithm to fit exoplanet radial velocity data and estimate the posterior distribution of the model parameters
Scalpels algorithm
A not so mini implementation of the Gaussian process frameworks described on Rajpaul et al. (2015) and Jones et al. (2017).
Computes Cross Correlation Functions (CCFs) with RvSpectML
Decompose spectrum of resolved SB2 binary to extract radial velocity of individual components
Using the radial velocity method to find the semi-major axis and mass of planets
Modelling RV and activity indicators with an artificial GP network
Using Monte Carlo Methods to estimate mass potential parameters on a model describing a galaxy radial velocity in terms of the radius with the bayesian parameter estimation.
Base package to be imported by other members of RvSpectML ecosystem
SDO Data Analysis for CLV
RAD-ASS: the RADius-mASS relationship of exoplanets project from OSU's URSA program.
Instrument-speciifc code for RvSpectML
Repo for RvSpectML code still in the experimental stage
Scripts for analyzing NEID Sun-as-a-star observations using RVSpectML
README for RvSpectML project
Plotting functions/scripts for use with RvSpectML
This repository was created as an appendix to my final master thesis: "Detectability and occurrences in CARMENES"
The use of Gaussian processes in the analysis of radial velocity measurements if you are into those things.
Simple code to compute radial velocities of an astronomical binary system (e.g. an exoplanet orbiting a star) based on its orbital parameters.
A pure Python code for working with radial velocities of stars with a massive companion.