Related papers: Time-energy uncertainty relation for neutrino oscillations: historical development, applications and future prospects

Time-energy uncertainty relation for neutrino oscillations: historical development, applications and future prospects

URL: http://arxiv.org/abs/2310.12124v2
Date: Thu, 9 Nov 2023 10:53:41 GMT
Title: Time-energy uncertainty relation for neutrino oscillations: historical development, applications and future prospects
Authors: Giuseppe Gaetano Luciano and Luca Smaldone
Abstract summary: Time-energy uncertainty relation (TEUR) plays a fundamental role in quantum mechanics. We analyze the implications of TEUR and explore the impact of gravitational and non-relativistic effects on the standard condition for neutrino oscillations.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Time-energy uncertainty relation (TEUR) plays a fundamental role in quantum mechanics, as it allows to grasp peculiar aspects of a variety of phenomena based on very general principles and symmetries of the theory. Using the Mandelstam-Tamm method, TEUR has been recently derived for neutrino oscillations by connecting the uncertainty on neutrino energy with the characteristic time-scale of oscillations. Interestingly enough, the suggestive interpretation of neutrinos as unstable-like particles has proved to naturally emerge in this context. Further aspects have been later discussed in semiclassical gravity by computing corrections to the neutrino energy uncertainty in a generic stationary curved spacetime, and in quantum field theory, where the clock observable turns out to be identified with the non-conserved flavor charge operator. In the present work, we give an overview on the above achievements. In particular, we analyze the implications of TEUR and explore the impact of gravitational and non-relativistic effects on the standard condition for neutrino oscillations.

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