Journal ArticleDOI
Das Spinproblem in der klassischen Elektrodynamik
I. M. Ternov,W. A. Bordowitsyn +1 more
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TLDR
In this article, the main principles of the classical relativistic theory of a spin pointparticle are formulated, and the consequences for the spin motion are derived, taking into account the anomalous magnetic moment of the particle.Abstract:
Es werden die Hauptthesen der klassischen relativistischen Theorie des Spins eines punktformigen Teilchens formuliert. Ausgehend davon wird die Ableitung der Spinbewegungsgleichungen angegeben und gezeigt, das bei Berucksichtigung des anomalen magnetischen Momentes des Teilchens die BARGMANN-MICHEL-TELEGDI-Gleichungen sowie die Gleichungen von Good, NYBORG und anderen als Spezialfalle in den klassischen Spin-Gleichungen von FRENKEL enthalten sind.
The Spin Problem in Classical Electrodynamics
The main principles of the classical relativistic theory of a spin point-particle are formulated. Proceeding from this, the consequences for the spin motion are derived. Taking into account the anomalous magnetic moment of the particle the classical spin equations of FRENKEL are schown to contain as special cases the equations of BARGMANN-MICHEL-TELEGDI and also those of Good, NYBORG and others.read more
Citations
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Journal ArticleDOI
Thomas precession: correct and incorrect solutions
TL;DR: A wealth of different expressions for the frequency of the Thomas precession can be found in the literature, with the consequence that this issue has been discussed over a long period of time as discussed by the authors.
Journal ArticleDOI
Relativistic magnetic top in electromagnetic fields
TL;DR: In this paper, the precision of a relativistic magnetic top (a point magnetic moment that executes translational motion as it rotates) in a special electromagnetic field configuration is investigated, where the directions of the intrinsic torque (spin) and the magnetic moment of the top are assumed to coincide.
References
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Journal ArticleDOI
Precession of the Polarization of Particles Moving in a Homogeneous Electromagnetic Field
TL;DR: In this article, the precession of a particle moving in a homogeneous electromagnetic field has been investigated for spin ½ particles in some particular cases and the results were derived by explicit use of the Dirac equation with the occasional inclusion of a Pauli term to account for an anomalous magnetic moment.
Journal ArticleDOI
On Quantum electrodynamics and the magnetic moment of the electron
Journal ArticleDOI
Die Elektrodynamik des rotierenden Elektrons
TL;DR: The Uhlenbeck-Goudsmitsche Auffassung des rotierenden Elektrons wird nach Thomas mittels der speziellen Relativitatstheorie zur Aufstellung der Bewegungsgleichungen in einem gegebenen elektromagnetischen Felde benutzt as mentioned in this paper.