SunPy - Python for Solar Physics
-
Updated
Dec 25, 2024 - Python
SunPy - Python for Solar Physics
Space Weather JHelioviewer ☉
🕸️ 3D interactive analysis in your browser mostly written around the Three.js JavaScript library
Potential Field Source Surface model package for Python
A Python library for obtaining, processing and interacting with calibrated DKIST data.
PyThea is an open-source software package to perform coronal mass ejection (CME) and shock wave 3D reconstruction using multi-viewpoint remote-sensing observations.
High-performance Flux Transport
Python interface to the CHIANTI atomic database
Demonstrating a Deep Learning Approach for DEM Inversion
Hazel v2.0: synthesis and inversion of Stokes profiles caused by the joint action of atomic level polarization and the Hanle and Zeeman effects
Graduated cylindrical shell CME model in Python
A Python package for manipulating and correcting variable point spread functions.
For the investigation of NLTE glowy stuff. A python framework for constructing solar NLTE radiative transfer simulations in one- and two-dimensional geometries, with an optimised C++ backend.
The Solar MAgnetic Connection Haus (Solar-MACH) tool is a multi-spacecraft longitudinal configuration plotter
Integrate SSW into your Python workflows
FORTRAN and IDL codes to analyze solar magnetic field observations and construct magnetic models
An implementation of the enthalpy-based thermal evolution of loops (EBTEL) model implemented in C++ and wrapped in Python
Add a description, image, and links to the solar-physics topic page so that developers can more easily learn about it.
To associate your repository with the solar-physics topic, visit your repo's landing page and select "manage topics."