Area: 02 - Physics
Academic Recruitment Field: 02/A2 - Theoretical physics of fundamental interactions
Academic Discipline: FIS/02 - Theoretical physics, mathematical models and methods
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My research activity covers the following areas.
Neutrino physics - determination of mass and mixing parameters, among the lesser known parameters of the standard model, by studying the phenomenon of neutrino oscillations.
Neutrino astronomy uses astrophysically produced neutrinos (solar neutrinos, supernova neutrinos, etc.) to obtain information on sources. Study the phenomenon of neutrino oscillations in extremely dense astrophysical environments such as supernovas.
Physics beyond the standard model - derive limits on the parameters of new physics models (axions, sterile neutrinos, etc.) by studying the impact of these exotic phenomena on stellar evolution, neutrino oscillations, and possible signals created by new particles in neutrino detectors.
Neutrino physics - determination of mass and mixing parameters, among the lesser known parameters of the standard model, by studying the phenomenon of neutrino oscillations.
Neutrino astronomy uses astrophysically produced neutrinos (solar neutrinos, supernova neutrinos, etc.) to obtain information on sources. Study the phenomenon of neutrino oscillations in extremely dense astrophysical environments such as supernovas.
Physics beyond the standard model - derive limits on the parameters of new physics models (axions, sterile neutrinos, etc.) by studying the impact of these exotic phenomena on stellar evolution, neutrino oscillations, and possible signals created by new particles in neutrino detectors.