Spin and dynamics in relativistic quantum theories

W. N. Polyzou; W. Gl\"ockle; H. Wita{\l}a

arXiv:1410.0593·hep-th·June 23, 2015

Spin and dynamics in relativistic quantum theories

W. N. Polyzou, W. Gl\"ockle, H. Wita{\l}a

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TL;DR

This paper explores how relativity and dynamics influence the spin and orbital angular momentum in hadronic systems, providing insights into their fundamental structure.

Contribution

It offers a detailed analysis of the impact of relativistic effects on the spin and angular momentum decomposition in quantum theories of hadrons.

Findings

01

Relativity significantly affects spin and orbital angular momentum definitions.

02

Dynamics alter the distribution of angular momentum in hadronic systems.

03

Theoretical framework clarifies the role of relativistic effects in quantum spin analysis.

Abstract

The role of relativity and dynamics in defining the spin and orbital angular momentum content of hadronic systems is discussed.

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