Fast & scalable MCMC for all your exoplanet needs!
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Updated
Jun 2, 2025 - Python
Fast & scalable MCMC for all your exoplanet needs!
Automagically remove trends from time-series data
Transit and Radial velocity Interactive Fitting tool for Orbital analysis and N-body simulations: The Exo-Striker
Fast and easy exoplanet transit light curve modelling.
Tools for data-driven spectra models with Gaussian processes. Pronounced "soap."
Python implementation of Parker wind models for exoplanet atmospheres
👾 detection of exolife is one of the most important goals for future space missions - this research was performed at the mt. stony brook
A package for detecting, vetting, and modelling transiting exoplanets on uncertain periods
Exoplanet exploration using machine learning
The goal of this project is to create an all-encompassing collection of Jupyter notebooks—your trusty companions for engaging exercises related to microlensing. Through these notebooks, the insights and experiences of microlensing elders can light your path as you embark on your journey of discovery and exploration through scientific research.
Predicting potential exoplanets in star systems using light intensity curves data derived from observations made by the NASA Kepler space telescope.
Web app for the Exoplanet Quest game by team Three Buddy Problem - 🎊 1st Place 🎊 in NASA Space Apps Challenge 2024 Turin
An Interactive data visualization of Exoplanets
This project seeks to simulate the atmospheric and surfacic temperature maps that would occur on exoplanets. We plan on taking into account the type of star and the orbit's profile as well as seasonal shift from axial tilt and what would happen on tidally locked planets.
UNLV Star & Planet Formation Group
Planet Hunters TESS Lightcurve viewer
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