science paper
Quantum Geometry
Quantum Geometry Conserves Baryon Symmetry - the Matter-antimatter Universe.
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Abstract
The Universe that we live in is a universe of matter, even though we know that there must be just as much antimatter around that will balance the matter it appears that the antimatter is no where to be found. We know this to be simply true, as a matter-antimatter universe would vanish in one annihilation event, which is what apparently happened very, very soon after the big bang. We are here by grace of a very small imbalance in favor of matter, one particle of matter surviving for every one billion matter-antimatter pairs.
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Other than the mirror matter-antimatter universe hypothesis, or matter-antimatter bubble universe, most research in baryon asymmetry, baryogenesis, is directed at finding a good mechanism for symmetry breaking, following the three conditions set by Sakharov in 1967 [1]. To date there are no viable theories, and the matter-antimatter imbalance remains as one of the great unsolved mysteries in physics. However, this then implies that nature has created a universe that is so out of balance that the dance partner is nowhere to be found.
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Quantum Geometry is a new proposal to allow baryon symmetry to be conserved, and a universe with 50% matter and 50% antimatter, to actually exist, everywhere. At the lowest level of existence, that of the fundamental particles, both quarks and antiquarks can be used to construct the composite particles of the second level, the subatomic particles, without annihilation. In the heart of the sub-atomic particles, the proton and neutron, the geometry of the gluon equilibrium allows these particles to contain quarks and antiquarks, the proton holding four quarks and one antiquark, the pentaquark [2], and the neutron being made up of three quark-antiquark pairs. These sub-atomic particles then interact further as particles of matter, avoiding annihilation in the world of matter.
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Then, Quantum Geometry is used to propose a composite electron. This sub-atomic particle would be made of four antiquarks and one quark, an antimatter pentaquark. The atom then becomes the third level building block of matter, made of protons with a baryon number of +1, neutrons with a baryon number of 0, rather than also +1, and a composite electron with a baryon number of -1, rather than being a point-particle fermion. This allows the universe we see to have a baryon number of 0, to have baryon symmetry, without having to search for the antimatter or to consider that it has all disappeared in an explosion of light.
Every atom contains an equal amount of matter and antimatter, held in equilibrium by a powerful geometry that is fully explained in this new theory of Quantum Geometry that will take us beyond relativity theory. Our universe is a balanced geometric matter-antimatter universe, at all levels, each balanced through a zero-point that is anchored in absolute time.
science paper
Geometry of Light
Geometry of Light - A revolutionary new theory and a foundation for a New Science.​
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Abstract
We investigate a new theory of Light which we are calling the Geometry of Light. This theory shows us that by applying symmetrical positive/negative geometry to physics and especially quantum physics we are able to solve many of its currently unsolved problems and propose a holistic theory of light that could take us on to a new Theory of Everything.
The first step towards a ‘new science’ is in fully understanding Light, as light is the first appearance of mass/energy out of the zero-point field, the quantum vacuum of space. We present a revolutionary new theory that proposes light as a composite particle made up of both photons (light/energy) and gluons (darkness/ information). When travelling in free space as ‘light’ these two particles are always connected, always in interaction with each other, and even though we see the flash of light of the photon, it also has its unseen shadow of darkness called the gluon. This continual interaction between the photon and gluon will explain all the quantum weirdness at that level and above, as all particles of matter are created out of the zero-point field via this photon/gluon pairing.
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The photons create an outer boundary (shell/ shield) of each subatomic particle and the gluons hold the inner boundary (strong force/ glue) or centre of the particle. The internal components (mostly quarks and antiquarks) of all particles are held tightly between these two boundaries, making all of matter truly ‘frozen light’. When pushed apart like this, in the creation of matter, the photons around the outside of the particle will take on a negative charge (shield) and the gluons in the centre a positive charge (glue). These additional charges, within every particle of matter, contribute significantly to finally and fully explaining the ‘weird’ characteristics of quantum physics.
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