Supersymmetric relativistic quantum mechanics in time-domain
Asenjo
F
A
author
Hojman
S
A
author
Moya-Cessa
H
M
author
Soto-Eguibar
F
author
2022
A supersymmetric relativistic quantum theory in the temporal domain is developed for bi-spinor fields satisfying the Dirac equation. The simplest time-domain supersymmetric theory can be postulated for fields with time-dependent mass, showing an equivalence with the bosonic supersymmetric theory in time-domain. Solutions are presented and they are used to produce probability oscillations between mass states. As an application of this idea, we study the two-neutrino oscillation problem, showing that flavour state oscillations may emerge from the supersymmetry originated by the time-dependence of the unique mass of the neutrino.(c) 2022 Elsevier B.V. All rights reserved.
Supersymmetry
Time-domain
Neutrino oscillation
WOS:000860777300004
exported from refbase (show.php?record=1643), last updated on Thu, 06 Oct 2022 16:50:41 -0300
text
10.1016/j.physleta.2022.128371
Asenjo_etal2022
Physics Letters A
Phys. Lett. A
2022
continuing
periodical
academic journal
450
128371
0375-9601