While my scientific training is originally founded on nuclear engineering, physics has always been my passion. At the moment, my main interest is the interplay between Particle physics and Nuclear physics, where the symmetries behind Nature encounter the complex structure of nuclei. A touch of weak interaction at low energies enables to probe questions that may strengthen our knowledge of the Standard Model (SM) or go Beyond it (BSM), as well as investigate the properties of hadronic matter.

As a PhD student at Max Planck Institute for Nuclear Physics, my work focuses on developing innovative techniques for the detection of reactor antineutrinos, with the aim to increase their interaction rates. In OMNIA, I am involved in the design of low energy neutrino detectors, exploring resonant and coherent pathways, that may be extended to the measurement of the cosmic neutrino background, a signal coming straight from the beginning of the universe (around 1s after the Big Bang).