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[4] viXra:1109.0068 [pdf] submitted on 29 Sep 2011
Authors: D.J. Pons
Comments: 14 pages
We introduce a new system-modelling representation for the interaction of
particules with internal structures (hidden variable solutions). This is an
improvement on Feynman diagrams that only represent points and limited
information about state. The notation is able to represent key variables
describing the internal states, such as phase and the three dimensional
discrete field structures. The latter include the cordus hyff emission
directions (HEDs). With this method it is possible to model the different
stages in an interaction processes. It is applied to the cordus annihilation
mechanics, and the resulting models qualitatively distinguish between the
parapositronium and orthopositronium annihilation phenomena.
Category: Nuclear and Atomic Physics
[3] viXra:1109.0047 [pdf] replaced on 2014-02-20 03:01:25
Authors: Dirk J. Pons, Arion D. Pons, Aiden J. Pons
Comments: 24 Pages. Pons DJ, Pons AD, Pons AJ (2014) Annihilation mechanisms. Applied Physics Research 6 (2):28-46. http://dx.doi.org/10.5539/apr.v6n2p28
This paper develops an ontologically rich explanation of the inner mechanics of the annihilation process, starting from a non-local hidden-variable (NLHV) design. This explains the process in terms of the handedness of matter and antimatter, the interaction of the electron and antielectron as they approach, the collapse of their discrete force structures and their reformation into photon structures. The process is more one of remanufacture than destruction. The resulting Cordus theory successfully explains para- and ortho-positronium annihilation. It explains the different photons output, the relative difference in lifetimes, and why Bhabha scattering sometimes happens instead. The theory exposes a deeper common mechanism for annihilation, pair-creation, and bonding.
Category: Nuclear and Atomic Physics
[2] viXra:1109.0045 [pdf] submitted on 20 Sep 2011
Authors: D.J. Pons
Comments: 9 pages
We develop a conceptual model for the internal structures of the photon and electron, based on
the cordus model. The main differentiating feature between the photon and electron is identified as the way
it deals with its field structures or hyff. The photon has a fibrillating relationship with its field,
whereas the electron is a pulsating field-pump. The resulting model permits an explanation of the discrete
(approximately quantised) electrostatic force, the propulsion mechanism for the speed of light, and the
gravitational bending of light. These are side-effects and the larger advantage of this model is the
potential to explain photon-electron interactions generally.
Category: Nuclear and Atomic Physics
[1] viXra:1109.0009 [pdf] submitted on 6 Sep 2011
Authors: D.J. Pons
Comments: 15 pages
Existing theories of physics struggle to explain the difference between
matter and antimatter in ways that make physical sense. This paper offers
a reconceptualisation based on the cordus conjecture. We create a new
concept of handedness, called ma, and an operational definition based on
the energisation sequence of the cordus reactive-ends. Each reactive end
for a stable matter particuloid, e.g. the electron, has three orthogonal
hyff. The hand of these is held to be the same for all matter particuloids,
whether positive or negative charge. For all antimatter particuloids the
hand is inverted. The inversion also changes the direction of the hyff, and
thus reverses the charge, but this is a secondary effect. This cordus concept
permits models to be created differentiating between the electron, proton,
and antielectron (positron). This explains why the antielectron is very
different to the proton despite the same charge, and why the photon does
not have an antiparticle. It also allows the wider integration of bonding
and annihilation as manifestations of a single deeper mechanics.
Category: Nuclear and Atomic Physics
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