High Energy Particle Physics

1204 Submissions

[5] viXra:1204.0101 [pdf] submitted on 2012-04-28 14:29:22

Modeling the Electron as a Stable Quantum Wave-Vortex: Interpretation α ≈1/137 as a Wave Constant

Authors: George Kirakosyan
Comments: 22 pages, 10 figures, Article published in HADRONIC JOURNAL

The connection of alpha (α ≈1/137) to redistribution of intensities in interference of circularly polarized waves it has shown. Obtained number coincides to known one in reached accuracy: 10^-10. The photon represented as a quantum wave packet. The electron’s model proposed as Compton’s circularly polarized standing wave. The origins of the mass and static fields (charges) interpreted as a relativistic mass and pseudo static electromagnetic fields (“halos”) arising in interference of quanta. Electron’s magnetic moment and g value obtained with 10^-10 accuracy. Physical interpretation of de Broglie’s wave is proposed.
Category: High Energy Particle Physics

[4] viXra:1204.0087 [pdf] submitted on 2012-04-23 14:19:54

The Alpha-Quantized Systematics of Quark-Dominated Elementary Particle Lifetimes

Authors: Malcolm H. Mac Gregor
Comments: 33 pages, 15 figures

The experimental lifetime systematics of the 36 long-lived quark and particle metastable ground states is displayed graphically on a logarithmic global alpha-grid spaced in powers of the fine structure constant alpha ~ 1/137 and centered on the pi± lifetime. The hadron lifetimes separate into four non-overlapping lifetime groups, each dominated by a single quark flavor. These in turn divide into slow flavor-breaking electroweak decays and fast flavor-conserving paired-quark and radiative decays, separated by alpha^4 lifetime gaps. The long-lived electroweak subgroups feature contral lifetime (CL) bands that map onto the alpha-grid lines, plus particles that are displaced by factors of 2, 3 or 4 from the CL. The quark lifetime dominance rule is c > b > s. The neutron and muon lifetimes lie on the global alpha-grid. The tauon lifetime fits into the c-quark lifetime group.
Category: High Energy Particle Physics

[3] viXra:1204.0078 [pdf] submitted on 2012-04-18 23:12:33

E8QC - Quantum Contraction Building Block of Our Universe

Authors: Frank Dodd Tony Smith Jr
Comments: 6 Pages.

Our Universe can be described by an Algebraic Quantum Field Theory (AQFT) that is the Completion of the Union of all Tensor Products of a Building Block. This Fundamental Building Block can be embedded in the Real Clifford Algebra Cl(8,8). By the 8-Periodicity Property of Real Clifford Algebras, all Tensor Products of it are themselves Real Clifford Algebras, and the Completion of the Union of all Tensor Products is well-behaved and constitutes a generalized hyperfinite II1 von Neumann factor AQFT. The purpose of this paper is to describe the structure of this Fundamental Building Block and its physical interpretation. The Fundamental Building Block is the Maximal Contraction of the E8 Lie Algebra that lives inside Cl(8,8). Since it leads to an AQFT, it is called the E8 Quantum Contraction (E8QC).
Category: High Energy Particle Physics

[2] viXra:1204.0061 [pdf] submitted on 2012-04-15 13:32:52

The Bipolar Structure of Particles and Interactions

Authors: Peter Kohut
Comments: 41 Pages.

The basic elementary constituent of the physical Universe is discovered. It is a dynamic bipolar relation of opposites (+/-) as a basic elementary building unit of matter, energy, space and time. Energy being a motion has its basic manifestation in attraction and repulsion of opposites. Without acceptance of bipolarity principle of matter (space, energy) it is impossible to discover how matter and space are structured and constructed. As matter is spatial and space is material, so the elementary structural unit of space is at the same as the elementary building block of matter (energy). This simple fact has not been accepted by theoretical physic so far and the search for the essence of matter is far from the correct direction.
Category: High Energy Particle Physics

[1] viXra:1204.0008 [pdf] replaced on 2012-04-04 10:15:29

Higgs Alpha-Quantized Coupling Constants for Quarks and Metastable Particles

Authors: Malcolm H Mac Gregor
Comments: 11 pages, 3 figures

Higgs mass-generation particle coupling constants g are calculated as suggested by Lederman and Hill, who use the top quark t as the reference Higgs mass. Accurate alpha-quantized coupling constants g are obtained for the metastable leptons, constituent quarks, proton, Bc meson, and W and Z gauge bosons, where alpha is the fine structure constant, and where the particle masses are the inertial masses of the states involved. An analogous set of inverse Higgs-like coupling constants f is also presented in which the electron serves as the reference mass, as suggested by the alpha-boosted mass generation structure of the experimental f and g coupling constant values.
Category: High Energy Particle Physics