Awarded Projects

By developing a domain-specific AI co-pilot, mAiEnergy aims to enhance citizen engagement in the energy transition by providing context-aware insights on renewable energy, efficiency measures, flexibility markets, and smart grid technologies.

The Global and Modular Beyond-the-Standard Model Inference Tool (GAMBIT) is an open-source code for performing the most complete and rigorous assessments possible of new particle physics theories.

Ocean-atmosphere fluxes play a critical role in the evolution of climate. A better and more quantitative understanding of the physical mechanisms governing the exchanges of mass and gases across the air-water interface is strongly needed.

Massive Black Holes (MBHs) populate the centres of most, if not all, galaxies with total masses greater than approximately 1e12 solar masses.

This project makes use of a novel approach for numerical lattice simulations of the strong nuclear force.

Adding polymers to a Newtonian solvent alters the turbulence, ultimately resulting in the macroscopic effect of drag reduction (DR) in a turbulent wall-bounded flow.

This project aims to study the turbulent flow over acoustic liners with a particular focus on the effect of Mach number.

The objective of the project is building the next-generation version of the first pre-trained Italian LLM: Minerva 2.

Mitochondrial diseases result from defects in oxidative phosphorylation caused by mutations in genes in the nuclear and mitochondrial DNA. These mutations produce a wide range of abnormalities and symptoms that can make an accurate diagnosis difficult.