Ponente
Prof.
Alexander Studenikin
(Moscow State University and JINR-Dubna)
Descripción
We propose and investigated a new mechanism of electromagnetic radiation that can be emitted by electrons when they are dipped in dense fluxes of relativistic neutrinos. These studies are based on the obtained exact solution for the electron wave function in presence of relativistic neutrino background. The energy spectrum, rate and power of this radiation are calculated and applications to different astrophysical settings, including supernovae, are considered.
1. A.Studenikin, “Method of wave equations exact solutions in studies of
neutrinos and electrons interaction in dense matter”, J. Phys. A: Math. Theor. 41 (2008) 164047.
2. I. Balantsev, A. Studenikin, I. Tokarev , “New solutions to the Dirac equation for particles in a magnetic field and a medium”, Phys.Part.Nucl. 43 (2012) 727.
3. I.Balantsev, Yu.Popov, A.Studenikin, “On the problem of relativistic particles motion in strong magnetic field and dense matter”, J.Phys. A44 (2011) 255301.
4. A.Grigoriev, A.Lokhov, A.Studenikin, A.Ternov, The effect of plasmon mass on spin light of neutrino in dense matter”, Phys.Lett. B718 (2012) 512, arXiv: 1207.6396 v2, 16 March 2014.
Autor primario
Prof.
Alexander Studenikin
(Moscow State University and JINR-Dubna)
