6533b827fe1ef96bd12863ec
RESEARCH PRODUCT
Modell einer Coulombschen Ladung in der nichtlinearen Feldtheorie
Karl BechertJochen Lindnersubject
GravitationPhysicsClassical electron radiusPoint particleQuantum mechanicsGeneral Physics and AstronomyClassical field theoryElementary particleRadiusElectronCharged particledescription
>The nonlinear field theory developed by K. Bechert has solutions which correspond to a charged particle whose charge is represented by a charge density which is zero in the particle center, increases to a maximum against the particle edges, and then again decreases. The linear expansion of the particles was measured by the characteristic length L, which accurately represents the classical particle radius; for an electron L is equal to the classical electron radius. The physical magnitudes integrated over a random spatial area are all infinite. In the theory a dimensionless number of the order-of-magnitude of 10/ sup 4//sup 2/ occurs. The particle was held together by gravitational forces which counteract the electrical repulsion. With the solution given, the objection that a gravitation theory can yield no theory of elementary particles since the characteristic length of the particle must be the Einstein gravitation radius is refuted. The Einstein gravitation theory does not occur in the present work. (tr-auth)
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1960-01-01 | Annalen der Physik |