dorsal/arxiv
View SchemaContemporary development of Einstein's ideas on space-time and Brownian motion
| Authors | Yuri A. Rylov |
|---|---|
| Categories | |
| ArXiv ID | physics/0512069 |
| URL | https://arxiv.org/abs/physics/0512069 |
Abstract
Development of the contemporary theory of physical phenomena in the microcosm is considered to be a result of development of Einstein's ideas on a possibility of the event space modification and on a possibility of stochastic (Brownian) motion of free particles. One considers the space-time modification, based on a new conception of geometry. In the framework of this conception any geometry is obtained as a result of the proper Euclidean geometry deformation. In the framework of this conception it is possible such a space-time geometry, where the free particle motion appears to be stochastic, although the geometry in itself remains to be deterministic. The stochasticity intensity depends on the particle mass. It is small for particle of a large mass, and it is essential for the particle of a small mass. The space-time geometry may be chosen in such a way, that the statistical description of random world lines of particles be equivalent to the quantum description (the Schr\"{o}dinger equation). At such a description the quantum principles are not used. They can be obtained as a corollaries of the statistical description of nonrelativistic stochastic particles. The nonrelativistic quantum principles may not be used for description of relativistic phenomena.
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"abstract": "Development of the contemporary theory of physical phenomena in the microcosm\nis considered to be a result of development of Einstein\u0027s ideas on a\npossibility of the event space modification and on a possibility of stochastic\n(Brownian) motion of free particles. One considers the space-time modification,\nbased on a new conception of geometry. In the framework of this conception any\ngeometry is obtained as a result of the proper Euclidean geometry deformation.\nIn the framework of this conception it is possible such a space-time geometry,\nwhere the free particle motion appears to be stochastic, although the geometry\nin itself remains to be deterministic. The stochasticity intensity depends on\nthe particle mass. It is small for particle of a large mass, and it is\nessential for the particle of a small mass. The space-time geometry may be\nchosen in such a way, that the statistical description of random world lines of\nparticles be equivalent to the quantum description (the Schr\\\"{o}dinger\nequation). At such a description the quantum principles are not used. They can\nbe obtained as a corollaries of the statistical description of nonrelativistic\nstochastic particles. The nonrelativistic quantum principles may not be used\nfor description of relativistic phenomena.",
"arxiv_id": "physics/0512069",
"authors": [
"Yuri A. Rylov"
],
"categories": [
"physics.gen-ph"
],
"title": "Contemporary development of Einstein\u0027s ideas on space-time and Brownian motion",
"url": "https://arxiv.org/abs/physics/0512069"
},
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