Astroparticle Physics @ INFN Padova
The activities of ### in Padova span a wide range of topics: gravitational waves, the properties of neutrinos from accelerators or nuclear reactors, from the Earth, the Sun, from SuperNovae or cosmic rays. We search for new particles (the “axion”), tiny anomalies in the theory of general relativity or the existence of particular radioactive “neutrino-less” beta decays. We make astronomy with photons of the highest energies and we map galaxies to shed some light on the so-called “dark energy”.
Here you can find a list of the research activities in Astroparticle Physics
Astroparticle Physics @ INFN Padova
The activities of ### in Padova span a wide range of topics: gravitational waves, the properties of neutrinos from accelerators or nuclear reactors, from the Earth, the Sun, from SuperNovae or cosmic rays. We search for new particles (the “axion”), tiny anomalies in the theory of general relativity or the existence of particular radioactive “neutrino-less” beta decays. We make astronomy with photons of the highest energies and we map galaxies to shed some light on the so-called “dark energy”.
Here you can find a list of the research activities in Astroparticle Physics
Astroparticle Physics @ INFN Padova
The activities of ### in Padova span a wide range of topics: gravitational waves, the properties of neutrinos from accelerators or nuclear reactors, from the Earth, the Sun, from SuperNovae or cosmic rays. We search for new particles (the “axion”), tiny anomalies in the theory of general relativity or the existence of particular radioactive “neutrino-less” beta decays. We make astronomy with photons of the highest energies and we map galaxies to shed some light on the so-called “dark energy”.
Here you can find a list of the research activities in Astroparticle Physics