TARDIS - Temperature And Radiative Diffusion In Supernovae

A Python interface to the 6S Radiative Transfer Model

Eradiate: a next-generation radiative transfer model for Earth observation applications

Tools for atmospheric research

A benchmark dataset for Machine Learning emulation of atmospheric radiative transfer in weather and climate models (NeurIPS 2021 Datasets and Benchmarks Track)

📡 Python bindings for Remote Sensing Models

pyOSOAA is a python interface for the Ocean Successive Orders with Atmosphere - Advanced (OSOAA) radiative transfer.

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.

Simulate SEVIRI satellite channels from WRF output

A Python package for helping to compute input arrays to DISORT.

A first order radiative transfer model for soil- and vegetation related parameter retrievals from radar-data

Fast tool for 1D Non-LTE stellar parameter determination via Equivalent Width method

Tools for modelling exoplanet spectra

Generating Leaf Area Index Data For Super-Resolution

Reference atmospheric thermophysical properties for radiative transfer applications in Earth's atmosphere.

Python version of the FluxCompensator described in Koepferl & Robitaille (ApJ, 2017)

U.S. Standard Atmosphere 1976

Deep learning emulator of a radiative transfer model to study the impact of light absorbing particles on snow albedo

Python interface to C2Ray, with GPU-acceleration

Repack and compress line-transition data