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Auteurs principaux: Zhao, Pengcheng, Ivanov, Igor P., Zhang, Pengming
Format: Preprint
Publié: 2021
Sujets:
Accès en ligne:https://arxiv.org/abs/2106.00345
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author Zhao, Pengcheng
Ivanov, Igor P.
Zhang, Pengming
author_facet Zhao, Pengcheng
Ivanov, Igor P.
Zhang, Pengming
contents Muon decay is self-analyzing: the spectral-angular distribution of the emitted electron reveals the spin orientation of the polarized muon. Here, we show that the same feature applies to muons in non-plane-wave states and helps reveal the rich polarization opportunities available. We focus on the so-called vortex states, in which the muon carries a non-zero orbital angular momentum with respect to the average propagation direction and exhibits a cone structure in the momentum distribution. We compute the spectrum and the angular distribution of the electrons emitted in decays of vortex muons and show that the most revealing observable is not the angular distribution but the fixed-angle electron spectra. Even for very small cone opening angles of the vortex muons, it will be easy to observe significant modifications of the electron spectra which would allow one to distinguish vortex muons from approximately plane wave muons, as well as to differentiate among various polarization states. These features will be the key to tracking the evolution of vortex muons in external magnetic fields.
format Preprint
id arxiv_https___arxiv_org_abs_2106_00345
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle Decay of the vortex muon
Zhao, Pengcheng
Ivanov, Igor P.
Zhang, Pengming
High Energy Physics - Phenomenology
Quantum Physics
Muon decay is self-analyzing: the spectral-angular distribution of the emitted electron reveals the spin orientation of the polarized muon. Here, we show that the same feature applies to muons in non-plane-wave states and helps reveal the rich polarization opportunities available. We focus on the so-called vortex states, in which the muon carries a non-zero orbital angular momentum with respect to the average propagation direction and exhibits a cone structure in the momentum distribution. We compute the spectrum and the angular distribution of the electrons emitted in decays of vortex muons and show that the most revealing observable is not the angular distribution but the fixed-angle electron spectra. Even for very small cone opening angles of the vortex muons, it will be easy to observe significant modifications of the electron spectra which would allow one to distinguish vortex muons from approximately plane wave muons, as well as to differentiate among various polarization states. These features will be the key to tracking the evolution of vortex muons in external magnetic fields.
title Decay of the vortex muon
topic High Energy Physics - Phenomenology
Quantum Physics
url https://arxiv.org/abs/2106.00345