Awarded Projects

This project will investigate the electromagnetic propagation in complex scenarios such as indoor and outdoor environments including metamaterials. Those scenarios are easily reproduced by means of the reverberation chamber (RC).

FLASH radiotherapy (RT) consists in delivering a therapeutic dose over much shorter times than in conventional treatment protocols.

Magnetic confinement fusion research has been at the forefront of HPC since the 1970s, given that fusion plasmas constitute paradigmatic examples of complex multi-scale and multi-physics systems.

Keeping heat and particle fluxes to the surrounding wall structures of magnetically confined fusion plasmas within engineering limits and simultaneously ensuring high core plasma confinement constitutes one of the main challenges for the success of fusion energy.

Successful completion of this project would lead to a precise and truly a priori prediction of the low-energy constants (LECs) of chiral perturbation theory (PT) enabling new low-energy tests of the SM.

The birth of the first stars, galaxies and black holes heralded the beginning of the Cosmic Dawn (CD).

As energy-efficient, and renewable energy carrier, hydrogen plays an important role in the energy transition for reducing greenhouse gas emissions and limit climate changes. However, on the Earth hydrogen is not freely available, it is bound in molecules from which it should be extracted.

Astrophysical plasma turbulence has been studied extensively over the past decades. Due to the weak collisionality of this plasma, turbulence plays a fundamental role in the process of heating and accelerating the solar wind: driving energy fluctuations towards smaller and smaller scales.

Information storage based on phase-change materials (PCM) is widely considered a promising alternative to flash memories for the non-volatile memory technologies of the next decade.