Interference and Oscillation in Nambu Quantum Mechanics

Djordje Minic; Tatsu Takeuchi; Chia Hsiung Tze

arXiv:2012.06583·hep-ph·September 15, 2021

Interference and Oscillation in Nambu Quantum Mechanics

Djordje Minic, Tatsu Takeuchi, Chia Hsiung Tze

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TL;DR

This paper explores how Nambu Quantum Mechanics, a deformation of standard quantum theory affecting phase evolution, influences oscillation phenomena and uses neutrino data to constrain its parameters.

Contribution

It analyzes the impact of Nambu Quantum Mechanics on oscillation phenomena and derives bounds on its deformation parameters from neutrino mixing data.

Findings

01

Nambu Quantum Mechanics modifies phase evolution in quantum systems.

02

Bounds on deformation parameters are established using atmospheric neutrino data.

03

The theory's effects on neutrino oscillations are quantitatively analyzed.

Abstract

Nambu Quantum Mechanics, proposed in Phys. Lett. B536, 305 (2002), is a deformation of canonical Quantum Mechanics in which only the time-evolution of the "phases" of energy eigenstates is modified. We discuss the effect this theory will have on oscillation phenomena, and place a bound on the deformation parameters utilizing the data on the atmospheric neutrino mixing angle $θ_{23}$ .

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