Significance of the Spinorial Basis in the Quantum Theory

Valeri V. Dvoeglazov (Zacatecas U.; M\'exico)

arXiv:hep-th/9510237·hep-th·April 15, 2011

Significance of the Spinorial Basis in the Quantum Theory

Valeri V. Dvoeglazov (Zacatecas U., M\'exico)

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TL;DR

This paper discusses the critical importance of selecting the appropriate spinorial basis in the relativistic quantum theory, highlighting its impact on understanding space-time symmetries and interactions.

Contribution

It emphasizes the profound significance of the spinorial basis choice in the $(j,0)(0,j)$ representation space within relativistic quantum theory.

Findings

01

The choice of spinorial basis affects the interpretation of relativistic quantum states.

02

Space-time symmetries play a crucial dynamical role in quantum interactions.

03

Proper basis selection is essential for consistent relativistic quantum descriptions.

Abstract

Problems connected with a choice of the spinorial basis in the $(j, 0) \oplus (0, j)$ representation space are discussed. As shown it has profound significance in the relativistic quantum theory. From the methodological viewpoint this fact is related with the important dynamical role played by space-time symmetries for all kind of interactions.

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Taxonomy

TopicsAlgebraic and Geometric Analysis · Quantum Mechanics and Applications · Noncommutative and Quantum Gravity Theories