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Part 7 - Selfproof (cont) | SELFPROOF 0702 - ANTIELECTRONS
CURRENT COSMOLOGY MODEL
In particle physics, antimatter is
material composed of antiparticles, which have the same mass as
particles of ordinary matter but have opposite charge and other
particle properties such as lepton and baryon number. Encounters
between particles and antiparticles lead to the annihilation of both,
giving rise to varying proportions of high-energy photons (gamma
rays), neutrinos, and lower-mass particle-antiparticle pairs. Setting
aside the mass of any product neutrinos, which represent released
energy which generally continues to be unavailable, the end result of
annihilation is a release of energy available to do work,
proportional to the total matter and antimatter mass, in accord with
the mass-energy equivalence equation, E=mc2.
(Wikipedia 31 July 2013)
The
antielectron is the antiparticle or the antimatter counterpart of the
electron. The antielectron has an electric charge of +1e, a spin of
½, and has the same mass as an electron. When a low-energy
antielectron collides with a low-energy electron, annihilation occurs,
resulting in the production of two or more gamma ray photons.
(Wikipedia 23 November 2014)
MALTA COSMOLOGY TEMPLATE
- CONCLUSION 0716:
In a multiprocess, the mass of the understable axial quark
decreases and the mass of the overstable blackholepair increases until
the blackholepair stabilises and becomes a stable electron.
- CONCLUSION 0718: The default condition for an electron is to be aligned to the teelstream through which it is moving.
- CONCLUSION 0720:
Electrons are aligned to the teelstream through which they are
moving. Antielectrons are unaligned to the teelstream through which
they are moving.
- CONCLUSION 0722: Adjacent electrons and antielectrons can annihilate.
- CONCLUSION 0723:
When electrons/antielectrons annihilate, their component quarks
(understable blackholes) stabilise as photons, neutrinos, or blackholes
- or they dissipate.
COMMENTARY
At
the superficial level, the Current Model and the Malta Template
agree about the existence of antielectrons and about the way they
behave in given situations.
At the fundamental level, they do
not agree - but nor do they disagree. This is because the Current
Model offers no understanding of the structure of
electrons/antielectrons (or even that they have a structure) and
of the mechanism and processes that condition their behaviour.
In
the Malta Template, antielectrons arise naturally - and are then
naturally doomed to a short lifespan. An antielectron is an
electron that is unaligned to the teelstream it is within. Its
lifespan is short because an antielectron will
automatically try to realign itself to
its teelstream and thus become an
electron indistinguishable from all other electrons.
This
behaviour is common to all the antiparticles that are distinct
from their particles. They all attempt to align themselves with
the teelstream they are within and thus have short lifespans. This
resolves one of cosmology's major conundrums - baryon asymmetry.
- The
baryon asymmetry problem in physics refers to the fact that there is an
imbalance in baryonic matter and antibaryonic matter in the observable
universe. Neither the standard model of particle physics, nor the
theory of general relativity provides an obvious explanation for why
this should be so and it is a natural assumption that the universe be
neutral with all conserved charges. The Big Bang should have produced
equal amounts of matter and antimatter. Since this does not seem to be
the case, it is likely some physical laws must have acted differently
for matter and antimatter. There are several competing hypotheses to
explain the imbalance of matter and antimatter that resulted in
baryogenesis, but there is as yet no one consensus theory to explain
the phenomenon. (Wikipedia 23 November 2014)
The
concept of baryon asymmetry arises from the notion that the early
Universe was neutral - that for every antiparticle there was a
corresponding particle. This may have been the case, or it may not, but
it doesn't matter which it was because the structure of
antiparticles (distinct antiparticles, that
is) automatically brought the Universe to its present
condition.
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GLOSSARY
- BARYON:
Any of a class of elementary particles that have a mass greater
than or equal to that of the proton, participate in strong
interactions, and have a spin of 1/2. (Collins English Dictionary)
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