Journal ArticleDOI
Mass formula for Z0 and other predictions
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In this paper, the mass formula for the proton was derived, where Mz = 2(Mpα), 1/gc = 92.1 GeV, and α−1 = 137.5 GeV.Abstract:
The mass formulaMz= 2(Mpα)(1/gc = 92.1 GeV is derived, whereMp is the proton mass, χ= 2.79 the proton magnetic moment, and α−1 = 137.read more
Citations
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Journal ArticleDOI
Unification Based on ElectromagnetismA Simple Composite Model of Particles
TL;DR: In this article, a simple and direct approach based on absolutely stable particles as constituents of all other particles is proposed. But the resulting group structure is identical to the quark-lepton model, but the dynamics and the underlying physics is different.
Journal ArticleDOI
Exact strongly bound solutions of the classical relativistic two-body problem due to magnetic interactions
A. O. Barut,George Craig +1 more
TL;DR: In this paper, it was shown that the classical relativistic two-body problem of electrodynamics with Clausius-Darwin potential (α/r) has very tightly bound solutions besides the usual Kepler orbits.
Journal ArticleDOI
Dirac monopole and mac gregor’s formula for particle lifetimes
TL;DR: In this paper, the constituent quark model of Mac Gregor provides an explanation why the observed lifetimes are α-spaced, and the dyonium model suggests that quarks are composed of electric and magnetic charges which provide a clue to the origin of mass.
Book ChapterDOI
Can we Calculate the Fundamental Dimensionless Constants of Physics
TL;DR: In this article, the dimension less constants α = e2/4πe0ћc, β = Mp/me (or β′ = mμ/me), γ = GFermi m e 2 /cћ3 and δ = GNewton m E 2 /4π e0) which are associated with the four different manifestations (electromagnetic, strong, weak and gravitational) of a possible single interaction were calculated.
Journal ArticleDOI
A statistical model expounding weak bosons as massless particles
TL;DR: In this paper, a statistical model utilizing the Thomas-Fermi approximation is advanced which, by assuming Z0 and W± bosons to be massless particles like photons, explains the short range of weak forces by means of the screening properties of the negative-kinetic-energy neutrino distribution which, according to the Dirac equation, fills the whole universe.
References
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Journal ArticleDOI
Lepton mass formula
TL;DR: In this article, a mass formula for the muon and other heavy leptons was extended to include the rest mass of a lepton to get the next heavy lepton in the chain.
Journal ArticleDOI
The mass of the muon
TL;DR: In this paper, it was shown that a classical relativistic charged particle has an anomalous magnetic moment g = 4α/3, and that the wave equation predicts a second mass mμ =me(3/2α+1).
Journal ArticleDOI
On Z0 → e+e−γ decays
TL;DR: Radiative Z 0 decays from the point of view that weak bosons are nonstandard composite objects which interact strongly with each other are analyzed in this article, where they are shown to be non-uniform composite objects.
Book ChapterDOI
Nonperturbative Treatment of Magnetic Interactions at Short Distances and a Simple Magnetic Model of Matter
TL;DR: In this article, the properties of large magnetic dipole fields, the phenomenon of magnetic resonances in dipole field, and a dynamical model of hadrons and heavy leptons based on magnetic resonance were discussed.
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