Putting aerosols in the stratosphere to reflect sunlight could prevent the shutdown of key ocean currents, but only if it is ...

Imagine standing in a field and witnessing what appears to be a tornado made entirely of fire, spinning violently through the ...

The curriculum 2025W currently applies to the Master's Programme Environmental Meteorology and Climate Physics.

Most surface–atmosphere radiative transfer models (RTMs) work only for flat surfaces, with the exception being time-consuming 3-D scene-based models. The deficiency of flat-surface RTMs that do not ...

In order to improve the quantitative quality of the NTL data, this article proposes an innovative atmospheric correction algorithm that leverages the nighttime radiative transfer model (nRTM) ...

The research frontiers of radiative transfer (RT) in coupled atmosphere-ocean systems are explored to enable new science and specifically to support the upcoming Plankton, Aerosol, Cloud ocean ...

Atmospheric radiative transfer modeling: A summary of the AER codes: Short communication. Journal of Quantitative Spectroscopy and Radiative Transfer 91:233–244.

This infographic shows the interactions of radiative transfer involving Earth and its atmosphere — the absorption and reflection of sunlight from the surface and cloud tops, and the emission ...

The interpretation of planetary spectra requires a detailed understanding of radiative transfer (RT) and its application through computational codes. With the advancement of observations, atmospheric ...

Machine Learning Emulation of Atmospheric Radiative Transfer Using machine learning to represent sub-grid processes in weather and climate models holds promise, but also faces challenges.