Add to ORKGFor neutrinos streaming from a supernova (SN) core, dense matter suppresses self-induced flavor transformations if the electron density n_e significantly exceeds the neutrino density n_nu in the conversion region. If n_e is comparable to n_nu one finds multi-angle decoherence, whereas the standard self-induced transformation behavior requires that in the transformation region n_nu is safely above n_e. This condition need not be satisfied in the early phase after supernova core bounce. Our new multi-angle effect is a subtle consequence of neutrinos traveling on different trajectories when streaming from a source that is not point-like
(4 pages, 4 eps figures)International audienceThe usual description of self-induced flavor conversio...
We calculate coherent neutrino and antineutrino flavor transformation in the supernova environment, ...
9 pages, 7 figures. New presentation of results, version to be published in PRDWe study three-flavor...
7 pages, 2 figuresFor neutrinos streaming from a supernova (SN) core, dense matter suppresses self-i...
We carry out a detailed analysis of the supernova (SN) neutrino flavor evolution during the accretio...
16 pages, 12 figuresIn the dense-neutrino region at 50-400 km above the neutrino sphere in a superno...
We argue that the small fraction of neutrinos that undergo direction-changing scattering outside of ...
We study two-flavor collective neutrino oscillations in the dense-neutrino region above the neutrino...
We show that a self-interacting neutrino gas can spontaneously acquire a non-stationary pulsating co...
Core-collapse supernovae (SN) represent a unique laboratory to probe neutrino properties in the extr...
We can understand many recently discovered features of flavor evolution in dense, self-coupled super...
(4 pages, 4 eps figures)International audienceThe usual description of self-induced flavor conversio...
We calculate coherent neutrino and antineutrino flavor transformation in the supernova environment, ...
9 pages, 7 figures. New presentation of results, version to be published in PRDWe study three-flavor...
7 pages, 2 figuresFor neutrinos streaming from a supernova (SN) core, dense matter suppresses self-i...
We carry out a detailed analysis of the supernova (SN) neutrino flavor evolution during the accretio...
16 pages, 12 figuresIn the dense-neutrino region at 50-400 km above the neutrino sphere in a superno...
We argue that the small fraction of neutrinos that undergo direction-changing scattering outside of ...
We study two-flavor collective neutrino oscillations in the dense-neutrino region above the neutrino...
We show that a self-interacting neutrino gas can spontaneously acquire a non-stationary pulsating co...
Core-collapse supernovae (SN) represent a unique laboratory to probe neutrino properties in the extr...
We can understand many recently discovered features of flavor evolution in dense, self-coupled super...
(4 pages, 4 eps figures)International audienceThe usual description of self-induced flavor conversio...
We calculate coherent neutrino and antineutrino flavor transformation in the supernova environment, ...
9 pages, 7 figures. New presentation of results, version to be published in PRDWe study three-flavor...