dorsal/arxiv
View SchemaQuantum Field and Cosmic Field-Finite Geometrical Field Theory of Matter Motion Part Three
| Authors | Jianhua Xiao |
|---|---|
| Categories | |
| ArXiv ID | physics/0512178 |
| URL | https://arxiv.org/abs/physics/0512178 |
Abstract
This research establishes an operational measurement way to express the quantum field theory in a geometrical form. In four-dimensional spacetime continuum, the orthogonal rotation is defined. It forms two sets of equations: one set is geometrical equations, another set is the motion equations. The Lorentz transformation can be directly derived from the geometrical equations, and the proper time of general relativity is well expressed by time displacement field. By the motion equations, the typical time displacement field of matter motion is discussed. The research shows that the quantum field theory can be established based on the concept of orthogonal rotation. On this sense, the quantum matter motion in physics is viewed as the orthogonal rotation of spacetime continuum. In this paper, it shows that there are three typical quantum solutions. One is particle-like solution, one is generation-type solution, and one is pure wave type solution. For each typical solution, the force fields are different. Many features of quantum field can be well explained by this theoretic form. Finally, the general matter motion is discussed, the main conclusions are: (1). Geometrically, cosmic vacuum field can be described by the curvature spacetime; (2). The spatial deformation of planet is related with a planet electromagnetic field; (3). For electric charge less matter, the volume of matter will be expanding infinitely; (4).For strong electric charge matter, it shows that the volume of matter will be contracting infinitely.
{
"annotation_id": "933a0263-5ffc-4172-908c-1368734a8d32",
"date_created": "2026-03-02T18:01:04.282000Z",
"date_modified": "2026-03-02T18:01:04.282000Z",
"file_hash": "c5a3d72272613a8c27d59a5179477fe3cd29730aa4486a28a0eaddadaba8f152",
"private": false,
"record": {
"abstract": "This research establishes an operational measurement way to express the\nquantum field theory in a geometrical form. In four-dimensional spacetime\ncontinuum, the orthogonal rotation is defined. It forms two sets of equations:\none set is geometrical equations, another set is the motion equations. The\nLorentz transformation can be directly derived from the geometrical equations,\nand the proper time of general relativity is well expressed by time\ndisplacement field. By the motion equations, the typical time displacement\nfield of matter motion is discussed. The research shows that the quantum field\ntheory can be established based on the concept of orthogonal rotation. On this\nsense, the quantum matter motion in physics is viewed as the orthogonal\nrotation of spacetime continuum. In this paper, it shows that there are three\ntypical quantum solutions. One is particle-like solution, one is\ngeneration-type solution, and one is pure wave type solution. For each typical\nsolution, the force fields are different. Many features of quantum field can be\nwell explained by this theoretic form. Finally, the general matter motion is\ndiscussed, the main conclusions are: (1). Geometrically, cosmic vacuum field\ncan be described by the curvature spacetime; (2). The spatial deformation of\nplanet is related with a planet electromagnetic field; (3). For electric charge\nless matter, the volume of matter will be expanding infinitely; (4).For strong\nelectric charge matter, it shows that the volume of matter will be contracting\ninfinitely.",
"arxiv_id": "physics/0512178",
"authors": [
"Jianhua Xiao"
],
"categories": [
"physics.gen-ph"
],
"title": "Quantum Field and Cosmic Field-Finite Geometrical Field Theory of Matter Motion Part Three",
"url": "https://arxiv.org/abs/physics/0512178"
},
"schema_id": "dorsal/arxiv",
"source": {
"execution_id": "92788a0d-214f-459b-9920-71671eba1b12",
"id": "arXiv Dataset IDs",
"type": "Model",
"variant": "snapshot-2026-03-01",
"version": "0.1.0"
},
"user_id": 1000002
}