Self Magnetic Field and Current-loop of Electron with Five Different   Radii and Intrinsic Properties

S. Ghosh; M. R. Devi; A. Choudhury; J. K. Sarma

arXiv:0912.1726·physics.gen-ph·September 17, 2010

Self Magnetic Field and Current-loop of Electron with Five Different Radii and Intrinsic Properties

S. Ghosh, M. R. Devi, A. Choudhury, J. K. Sarma

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TL;DR

This paper investigates the self magnetic field of an electron modeled with five different radii, using intrinsic properties and Ampere's law to analyze the magnetic effects of charge rotation.

Contribution

It introduces a novel analysis of the electron's self magnetic field considering multiple radii and intrinsic properties, expanding understanding of electron magnetism.

Findings

01

Derived expressions for self magnetic field at different radii

02

Linked magnetic field to intrinsic electron properties

03

Provided a theoretical framework for electron magnetic behavior

Abstract

With the rotation of charge in a circular path current-loop is generated. This results in the production of magnetic fields in a charged body. This self (internal) magnetic field is treated here with five different radii of electron. Closed loop line integral of magnetic induction vector or the integral form of the Ampere's circuital law is expressed in terms intrinsic properties of electron.

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Taxonomy

TopicsParticle accelerators and beam dynamics · Quantum and Classical Electrodynamics · Plasma Diagnostics and Applications