Difference between revisions of "The Precise Positron and Electron"

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==Abstract==
 
==Abstract==
  
Vector particle physics shows that all precision in nature scales from the    precise size of the electron and positron. The fundamental physical constants    are known to within a few parts per billion uncertainty. These vector positron and    electron identically return all known electron constants and several previously    unknown electron fundamental constants as proof of concepts. Electron mass,    spin angular momentum, charge and magnetic moment are derived. The cause    of particle spin angular momentum is shown to be the conservation of the    structure photon's linear momentum in the unique structure geometry. New    previously unknown electron characteristics of loop current, loop voltage, loop    impedance Z<sub>0</sub>/2 and electron flux quantum are derived. The fine structure    constant (alpha) is derived from the vector geometry. The fundamental charge (e) is    shown to be size independent from the constant ratio between particle volume    and current loop areas. Size independence sets the value of the smallest charge    possible as (e=1.602176487x10<sup>-19</sup> A-s) solving a long standing mystery of why    the electron, muon and proton all have the same charge of (e).[[Category:Scientific Paper]]
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Vector particle physics shows that all precision in nature scales from the    precise size of the electron and positron. The fundamental physical constants    are known to within a few parts per billion uncertainty. These vector positron and    electron identically return all known electron constants and several previously    unknown electron fundamental constants as proof of concepts. Electron mass,    spin angular momentum, charge and magnetic moment are derived. The cause    of particle spin angular momentum is shown to be the conservation of the    structure photon's linear momentum in the unique structure geometry. New    previously unknown electron characteristics of loop current, loop voltage, loop    impedance Z<sub>0</sub>/2 and electron flux quantum are derived. The fine structure    constant (alpha) is derived from the vector geometry. The fundamental charge (e) is    shown to be size independent from the constant ratio between particle volume    and current loop areas. Size independence sets the value of the smallest charge    possible as (e=1.602176487x10<sup>-19</sup> A-s) solving a long standing mystery of why    the electron, muon and proton all have the same charge of (e).
  
[[Category:Particle Physics]]
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[[Category:Scientific Paper|precise positron electron]]
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[[Category:Particle Physics|precise positron electron]]

Latest revision as of 20:06, 1 January 2017

Scientific Paper
Title The Precise Positron and Electron
Read in full Link to paper
Author(s) Thomas N Lockyer
Keywords {{{keywords}}}
Published 2010
Journal Proceedings of the NPA
Volume 7
No. of pages 4
Pages 298-301

Read the full paper here

Abstract

Vector particle physics shows that all precision in nature scales from the precise size of the electron and positron. The fundamental physical constants are known to within a few parts per billion uncertainty. These vector positron and electron identically return all known electron constants and several previously unknown electron fundamental constants as proof of concepts. Electron mass, spin angular momentum, charge and magnetic moment are derived. The cause of particle spin angular momentum is shown to be the conservation of the structure photon's linear momentum in the unique structure geometry. New previously unknown electron characteristics of loop current, loop voltage, loop impedance Z0/2 and electron flux quantum are derived. The fine structure constant (alpha) is derived from the vector geometry. The fundamental charge (e) is shown to be size independent from the constant ratio between particle volume and current loop areas. Size independence sets the value of the smallest charge possible as (e=1.602176487x10-19 A-s) solving a long standing mystery of why the electron, muon and proton all have the same charge of (e).