SunPy - Python for Solar Physics
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Updated
Jun 17, 2024 - Python
SunPy - Python for Solar Physics
🕸️ 3D interactive analysis in your browser mostly written around the Three.js JavaScript library
Space Weather JHelioviewer ☉
Potential Field Source Surface model package for Python
A Python library for obtaining, processing and interacting with calibrated DKIST data.
Demonstrating a Deep Learning Approach for DEM Inversion
PyThea is an open-source software package to perform coronal mass ejection (CME) and shock wave 3D reconstruction using multi-viewpoint remote-sensing observations.
Hazel v2.0: synthesis and inversion of Stokes profiles caused by the joint action of atomic level polarization and the Hanle and Zeeman effects
Python interface to the CHIANTI atomic database
A Python package for manipulating and correcting variable point spread functions. Maintainer: @jmbhughes
Graduated cylindrical shell CME model in Python
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
High-performance Flux Transport
Integrate SSW into your Python workflows
FORTRAN and IDL codes to analyze solar magnetic field observations and construct magnetic models
Extension of the Enthalpy Based Thermal Evolution of Loops (EBTEL) model to solve the two-fluid equations to allow for decoupling of electron and ion fluids.
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