Dynamical pion collapse and the coherence of conventional neutrino beams

Author(s)

Jones, Benjamin James Poyner

Abstract

In this paper we consider the coherence properties of neutrinos produced by the decays of pions in conventional neutrino beams. Using a multiparticle density matrix formalism we derive the oscillation probability for neutrinos emitted by a decaying pion in an arbitrary quantum state. Then, using methods from decoherence theory, we calculate the pion state which evolves through interaction with decay-pipe gases in a typical accelerator neutrino experiment. These two ingredients are used to obtain the distance scales for neutrino beam coherence loss. We find that for the known neutrino mass splittings, no nonstandard oscillation effects are expected on terrestrial baselines. Heavy sterile neutrinos may experience terrestrial loss of coherence, and we calculate both the distance over which this occurs and the energy resolution required to observe the effect. By treating the pion-muon-neutrino-environment system quantum mechanically, neutrino beam coherence properties are obtained without assuming arbitrary spatial or temporal scales at the neutrino production vertex.

Date issued

2015-03

URI

http://hdl.handle.net/1721.1/95839

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Physical Review D

Publisher

American Physical Society

Citation

Jones, B. J. P. “Dynamical Pion Collapse and the Coherence of Conventional Neutrino Beams.” Physical Review D 91.5 (2015). © 2015 American Physical Society.

Version: Final published version

ISSN

1550-7998

1550-2368