dorsal/arxiv
View SchemaMatter and Light in Flatland
| Authors | Omar Yepez |
|---|---|
| Categories | |
| ArXiv ID | physics/0401153 |
| URL | https://arxiv.org/abs/physics/0401153 |
Abstract
Using a non-material current through three new dimensions. It was possible to build a particle-space model (a higher dimensional object intersecting a lower dimensional world). The new dimensions solve the old problem of equal sign walls huge electric repulsion force in the electric sphere model, since these curved dimensions confine these walls, preventing them from coming apart. The flat-fermion, which is a toroid, is resistant to be moved, intersects the space (flatland) in two places at the same time (non-local) while moving, leaving a sinusoidal electric field that uses the two dimensions of flatland and adopt a toroidal intersection at rest, avoiding the information about its momentum. It also has an anapole moment, which time consuming intersection in flatland produces the flat-fermion magnetic dipole moment. The flat-fermion has an enantiomer and both undergo a separation under an external magnetic field. On the other hand, flat-photon, is also a toroid, is not resistant to be moved, also intersects flatland in two places at the same time, but its sinusoidal electric field uses one dimension less from the two available. Therefore, in order to have mass the object should touch all the dimensions of flatland. Pure quantum phenomena such as Self-Interference, the number of turns before being identical and the uncertainty principle, as well as, fermion geometric properties and its magnetic dipole moment are explained and derived.
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"abstract": "Using a non-material current through three new dimensions. It was possible to\nbuild a particle-space model (a higher dimensional object intersecting a lower\ndimensional world). The new dimensions solve the old problem of equal sign\nwalls huge electric repulsion force in the electric sphere model, since these\ncurved dimensions confine these walls, preventing them from coming apart. The\nflat-fermion, which is a toroid, is resistant to be moved, intersects the space\n(flatland) in two places at the same time (non-local) while moving, leaving a\nsinusoidal electric field that uses the two dimensions of flatland and adopt a\ntoroidal intersection at rest, avoiding the information about its momentum. It\nalso has an anapole moment, which time consuming intersection in flatland\nproduces the flat-fermion magnetic dipole moment. The flat-fermion has an\nenantiomer and both undergo a separation under an external magnetic field. On\nthe other hand, flat-photon, is also a toroid, is not resistant to be moved,\nalso intersects flatland in two places at the same time, but its sinusoidal\nelectric field uses one dimension less from the two available. Therefore, in\norder to have mass the object should touch all the dimensions of flatland. Pure\nquantum phenomena such as Self-Interference, the number of turns before being\nidentical and the uncertainty principle, as well as, fermion geometric\nproperties and its magnetic dipole moment are explained and derived.",
"arxiv_id": "physics/0401153",
"authors": [
"Omar Yepez"
],
"categories": [
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"title": "Matter and Light in Flatland",
"url": "https://arxiv.org/abs/physics/0401153"
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