Results 161 to 170 of about 15,767 (205)

The spin of the electron according to stochastic electrodynamics

Foundations of Physics, 1982
By making use of the method of moments we study some aspects of the statistical behavior of the nonrelativistic harmonic oscillator according to stochastic electrodynamics. We show that the random rotations induced on the particle by the zero-point field account for the magnitude of the spin of the electron, the result differing from the correct one(3 ...
A. Jáuregui, L. de la Peña
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The origin of the solar system and stochastic electrodynamics

Il Nuovo Cimento C, 1980
The formulation of the magnetic field of rotating bodies, obtained within the framework of stochastic electrodynamics, and Hoyle's mechanism for the transfer of angular momentum are used in the proposed model of the origin of the solar system. The ensemble of numerical results obtained is in good agreement with observations.
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Nonlocal stochastic quantization of scalar electrodynamics

International Journal of Theoretical Physics, 1990
Quantization of the electromagnetic interactions of scalar charged particles is considered within the stochastic Langevin and Schwinger-Dyson equations with nonlocal white noise. Fulfillment of the gauge-invariant condition in such a scheme is studied in detail.
Kh. Namsrai, Kh. Namsrai, M. Dineykhan
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Stochastic Electrodynamics: Methods and Results

1980
Stochastic Electrodynamics (SED) is a classical theory of particles and fields. The difference with respect to usual Electrodynamics is the assumption of a universal stochastic electromagnetic field (“background” field or “zero-point” field), which could be conceived as a classical counterpart to the vacuum field of Quantum Electrodynamics (QED).
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Recent Developments in Linear Stochastic Electrodynamics

AIP Conference Proceedings, 2006
A detailed analysis of stochastic electrodynamics (SED) as a foundation for quantum mechanics has shown that the reasons for its failure in the case of nonlinear forces are not to be ascribed to the founding principles of the theory but to the approximation methods introduced, particularly the use of the Fokker‐Planck approximation and perturbation ...
Ana María Cetto, L. de la Peña
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Stochastic Electrodynamics General Considerations

1980
Stochastic Electrodynamics is a tentative to account for the peculiarities of quantum physics from a completely classical point of view. It has the advantage over many other attempts on that way to be physically well defined and to lead to equations which are not impossible to solve, so that it is possible to check the theory against experiment or ...
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The free particle as described by stochastic electrodynamics

Physics Letters A, 1981
Abstract Stochastic electrodynamics applied to an extended electron reproduces the basic properties of the quantum-mechanical free particle.
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A Brief Survey of Stochastic Electrodynamics

1980
Stochastic electrodynamics and random electrodynamics are the names given to a particular version of classical electrodynamics. This purely classical theory is Lorentz’s classical electron theory(1) into which one introduces random electromagnetic radiation (classical zero-point radiation) as the boundary condition giving the homogeneous solution of ...
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The natural line-breadth in stochastic electrodynamics

International Journal of Theoretical Physics, 1974
The fact that the formalism of stochastic electrodynamics includes the reaction force, makes the calculation of the natural line-breadth straightforward. The evaluation of the relativistic correction to energy levels is greatly simplified in stochastic electrodynamics and brings out the concept of the propagation of the Coulomb field with the velocity ...
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Gauge transformations in stochastic quantum electrodynamics

Il Nuovo Cimento, 1965
Invariance of the S-matrix of ordinary quantum electrodynamics under gauge transformations of the electromagnetic field is demonstrated explicitly. The behavior of the S-matrix of stochastic quantum electrodynamics is examined under gauge transformations of the mean value electromagnetic fieldAπ(x;L).
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