A package for detecting, vetting, and modelling transiting exoplanets on uncertain periods
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Updated
Aug 22, 2024 - Jupyter Notebook
A package for detecting, vetting, and modelling transiting exoplanets on uncertain periods
PlanetFinder is a Python-based tool designed for the detection and analysis of exoplanets using light curve data from the TESS mission. Leveraging the Lightkurve library, it allows users to search for, visualize, and analyze potential exoplanet transits, making it an ideal resource for both citizen scientists and professional astronomers.
Curvesim calculates the movements and eclipses of celestial bodies and produces a video of this and of the resulting lightcurve.
Web application to search, process, and visualizes the TESS data of any target cataloged in astronomical databases like SIMBAD.
🔆Ce tutoriel a été créé pour aider les utilisateurs à exploiter les données ouvertes des courbes de lumière de la mission de la Constellation BRITE! | 🔆 This tutorial has been created to help users make use of the open lightcurve data from the BRITE Constellation Mission!
Animated transit lightcurve posted once a day to twitter
Test of lightcurve computation for a general polygonal mesh.
Test of lightcurve computation for a general triangular mesh.
search for periodicity in photon arrival time data
PLATO WP36 Exoplanet Analysis System transit detection pipeline (version 2)
Prediction of a star light curve behaviour with a neural network
A collection of Jupyter Notebook tutorials for the use of Kepler data products from MAST
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