Jupyter Notebook tutorials using astronomical databases and virtual observatory tools
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Updated
Jun 9, 2024 - Jupyter Notebook
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.
Jupyter Notebook tutorials using astronomical databases and virtual observatory tools
💫 An open-source multi-purpose N-body code.
A comprehensive scheduling package for FERMI and LVC follow-up observations optimized for ultrafast telescope arrays
This program simulates aspects of stellar accretion disk winds. Using the radiative transfer tool, this program can be used to visualize the velocity, density, and temperature of planet formation
Bundle of small astronomical and astrophysical routines.
TARDIS - Temperature And Radiative Diffusion In Supernovae
Mock spatially resolved spectral line observations of simulated galaxies.
The Galacticus galaxy formation model
dynamics, age and metallicity indicators tracing evolution
Extensible spacetime agnostic general relativistic ray-tracing (GRRT).
MCFOST radiative transfer code
Monte Carlo-based data analysis
Astronomy and astrophysics core library
Semantic alignment of astronomical data with natural language using multi-modal models. (Jax) Code associated with https://arxiv.org/abs/2403.08851.
Forecasting the cross-orrelation between Line Intensity map and Ly-Alpha Forest surveys
Modules for Experiments in Stellar Astrophysics
Two-moment AMR radiation hydrodynamics (with self-gravity, particles, and chemistry) on CPUs/GPUs for astrophysics
Finding the orbital periods and transits of white dwarf-main sequence binaries with TESS.
Main yt repository
MACE = Machine-learning Approach to Chemistry Emulation