Holographic Wigner distributions for the pion

Mohammad Ahmady; Chandan Mondal; Ruben Sandapen; James P. Vary and; Xingbo Zhao

arXiv:2001.01690·hep-ph·December 14, 2021·1 cites

Holographic Wigner distributions for the pion

Mohammad Ahmady, Chandan Mondal, Ruben Sandapen, James P. Vary and, Xingbo Zhao

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TL;DR

This paper explores the multidimensional internal structure of the pion by analyzing its Wigner distributions through a holographic light-front wavefunction that incorporates dynamical spin effects.

Contribution

It introduces a novel holographic approach to compute pion Wigner distributions including dynamical spin effects, enhancing understanding of its internal structure.

Findings

01

Reveals detailed multidimensional structure of the pion.

02

Demonstrates the importance of dynamical spin effects.

03

Provides a new holographic framework for hadron structure analysis.

Abstract

We study the Wigner distributions of the pion using a holographic light-front pion wavefunction with dynamical spin effects to reveal its multidimensional structure.

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Taxonomy

TopicsQuantum Chromodynamics and Particle Interactions · Particle physics theoretical and experimental studies · Algebraic and Geometric Analysis