Analysing Data collected from the Solar Surface
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Updated
Jan 4, 2020 - Python
Astrophysics is the scientific discipline that deals with the physics of objects, phenomena, and processes in outer space, including (but not limited to) stars, galaxies, compact objects, and the formation of the Universe.
Analysing Data collected from the Solar Surface
A non-parametric moving median algorithm for detrending time series photometry from the Transiting Exoplanet Survey Satellite or Kepler datasets
Galaxy bulge-disc decomposition scheme using galfit used for the PHIBSS program (Freundlich et al. 2019).
Repository for the course "Stellar Formation and Evolution" from Feb/2023 to Jun/2023
A pure Python code for working with radial velocities of stars with a massive companion.
Query images and catalogues of Faint Images of the Radio Sky at Twenty-Centimeters (FIRST).
Display an elliptical Galaxy in Blender using a custom Star density function.
Pipeline to predict earthquake arrival times and amplitudes at the LIGO observatories
Different utilities for astronomy or time series analysis
Code used to create orbital visualizations for Brock Mentorship Research Co-op Program
Creating and fitting galaxy disc profiles
AstroThings mainly contains python scripts and functions concerning Astrophysics. Some topics are based on examples taken from the astropy mailing list, once they are tested, re-written, automated, improved and usually also parametrized and encapsulated into functions.
A codebase for parsing MPC and NEOWISE data to search for new useful epochs for thermophysical modeling.
Obtém dados de espectro de emissão dos elementos da base do NIST Atomic Spectra Database.
Fit a modified black body (grey body) to mid-infrared red astronomical data
A repository to execute image cutouts with SODA from a container integrated in CANFAR
Cosmology Evolution Calculator with Graphical User Interface
Python library for interactions with the IllustrisTNG simulation suite.
Astrophysics Tools in Python As An Unofficial Companion To "An Introduction to Modern Astrophysics by Dale A. Ostlie and Bradley W. Carroll"