Spinor equation for the $W^{\pm}$ boson

Ruo Peng Wang

arXiv:1110.0720·physics.gen-ph·October 5, 2011

Spinor equation for the $W^{\pm}$ boson

Ruo Peng Wang

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TL;DR

This paper introduces spinor equations for the $W^{\u00b1}$ bosons, analyzing their transformation properties, charge expressions, and quantization, revealing a zero vacuum energy for these fields.

Contribution

It presents a novel spinor equation formulation for $W^{\u00b1}$ bosons, including transformation properties and quantization conditions, expanding theoretical understanding.

Findings

01

Spinor equations for $W^{\u00b1}$ bosons are derived.

02

Charge, current, and density expressions are obtained.

03

Vacuum energy for $W^{\u00b1}$ fields is zero.

Abstract

I introduce spinor equations for the $W^{\pm}$ fields. The properties of these spinor equations under space-time transformation and under charge conjugation are studied. The expressions for electric charge and current and densities of the $W^{\pm}$ fields are obtained. Covariant quantization conditions are established, and the vacuum energy for the $W^{\pm}$ fields is found to be zero.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · International Science and Diplomacy · Quantum Chromodynamics and Particle Interactions