dorsal/arxiv
View SchemaQuantum Field Mechanics: Complex-Dynamical Completion of Fundamental Physics and Its Experimental Implications
| Authors | Andrei P. Kirilyuk |
|---|---|
| Categories | |
| ArXiv ID | physics/0401164 |
| URL | https://arxiv.org/abs/physics/0401164 |
Abstract
This report provides a brief review of recently developed extended framework for fundamental physics, designated as Quantum Field Mechanics and including causally complete and intrinsically unified theory of explicitly emerging elementary particles, their inherent properties, quantum and relativistic behaviour, interactions and their results. Essential progress with respect to usual theory is attained due to the unreduced, nonperturbative analysis of arbitrary interaction process revealing a qualitatively new phenomenon of dynamic multivaluedness of interaction results and their dynamically entangled structure giving rise to universally defined dynamic complexity (physics/9806002) and absent in usual, always perturbative and dynamically single-valued models with the zero value of unreduced complexity (including substitutes used for "complexity", "chaoticity", "self-organisation", etc.). It is shown how the observed world structure, starting from elementary particles and their interactions, dynamically emerges from the unreduced interaction between two initially homogeneous, physically real protofields (quant-ph/9902015, quant-ph/9902016). In that way one avoids arbitrary imposition of abstract entities and unprovable postulates or "principles", let alone "mysteries", of conventional theory, which now obtain unified, consistent and realistic explanation in terms of unreduced dynamic complexity. We complete the description of fundamental world structure emergence and properties by an outline of experimental implications and resulting causally substantiated change of research strategy.
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"abstract": "This report provides a brief review of recently developed extended framework\nfor fundamental physics, designated as Quantum Field Mechanics and including\ncausally complete and intrinsically unified theory of explicitly emerging\nelementary particles, their inherent properties, quantum and relativistic\nbehaviour, interactions and their results. Essential progress with respect to\nusual theory is attained due to the unreduced, nonperturbative analysis of\narbitrary interaction process revealing a qualitatively new phenomenon of\ndynamic multivaluedness of interaction results and their dynamically entangled\nstructure giving rise to universally defined dynamic complexity\n(physics/9806002) and absent in usual, always perturbative and dynamically\nsingle-valued models with the zero value of unreduced complexity (including\nsubstitutes used for \"complexity\", \"chaoticity\", \"self-organisation\", etc.). It\nis shown how the observed world structure, starting from elementary particles\nand their interactions, dynamically emerges from the unreduced interaction\nbetween two initially homogeneous, physically real protofields\n(quant-ph/9902015, quant-ph/9902016). In that way one avoids arbitrary\nimposition of abstract entities and unprovable postulates or \"principles\", let\nalone \"mysteries\", of conventional theory, which now obtain unified, consistent\nand realistic explanation in terms of unreduced dynamic complexity. We complete\nthe description of fundamental world structure emergence and properties by an\noutline of experimental implications and resulting causally substantiated\nchange of research strategy.",
"arxiv_id": "physics/0401164",
"authors": [
"Andrei P. Kirilyuk"
],
"categories": [
"physics.gen-ph"
],
"title": "Quantum Field Mechanics: Complex-Dynamical Completion of Fundamental Physics and Its Experimental Implications",
"url": "https://arxiv.org/abs/physics/0401164"
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