https://doi.org/10.1140/epjc/s10052-019-7009-8
Regular Article - Theoretical Physics
Entangled neutrino states in a toy model QFT
1
Institute of Modern Physics, NanChangLu 509, Lanzhou, 730000, China
2
University of the Chinese Academy of Sciences, YuQuanLu 19A, Beijing, 100049, China
* e-mail: jarah@impcas.ac.cn
Received:
9
February
2019
Accepted:
1
June
2019
Published online:
12
June
2019
It has been claimed that wave packets must be covariant and also that decohered neutrino oscillations are always revived during measurement. These conjectures are supported by general arguments which are not specific to the electroweak theory, and so if they are true for neutrinos they will also be true for simplified models. In this paper we produce such a simplified model in which the neutrino wave function, including its entanglement with the source particle and the environment, can be calculated explicitly in quantum field theory. It exhibits neutrino oscillation, which is reduced at late times by decoherence due to interactions of the source with the environment. One simple lesson from this model is that only the difference between the environmental interactions before and after neutrino emission can reduce the amplitude of neutrino oscillations. The model will be used to test the conjectures in a companion paper.
© The Author(s), 2019