Mechanical Analogies for the Lorenz Gauge, Particles and Antiparticles
Scientific Paper | |
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Title |
Mechanical Analogies for the Lorenz Gauge, Particles and Antiparticles |
Read in full | Link to paper |
Author(s) | Valery P Dmitriyev |
Keywords | electromagnetic fields, turbulent ideal fluid, Reynolds equations, Maxwell's electromagnetic equations |
Published | 2000 |
Journal | Apeiron |
Volume | 7 |
Number | 3-4 |
No. of pages | 10 |
Pages | 173-183 |
Read the full paper here
Abstract
An exact analogy of electromagnetic fields and particles can be found in mechanics of a turbulent ideal fluid with voids. The system is supposed to form a fine dispersion of voids in the fluid. This microscopically discontinuous medium is treated as a continuum. The turbulence is described in terms of the Reynolds stresses. Perturbations of the homogeneous isotropic turbulence are considered. For the high-energy low-pressure turbulence they are usually small. This entails the linearization of the Reynolds equations. The latter appear to be isomorphic to Maxwell?s electromagnetic equations. The Lorenz gauge expresses the slight effective compressibility of the medium. A particle can be viewed as a cavity in the medium. A respective antiparticle is modeled with an agglomerate of the medium?s material. Microscopically, these correspond to some nonlinear vortex formations in the "vortex sponge" which are of the cyclone and anticyclone type.