In this paper the classical limit of relativistic transport theories for spin 1/2 fermions is examined through a comparison with the classical kinetic theory derived from N=1 supersymmetric classical mechanics. The conclusion is that in the classical limit spindensities, i.e. the axial-vector contribution to the relativistic Wigner-function, vanishes and dipole-densities, i.e. the spin-tensor contributions to the relativistic Wigner function, may survive
We derive a quantum kinetic theory for QED based on Kadanoff-Baym equations for Wigner functions. By...
Lienard-Wiechert potentials of the relativistic spinning particle with anomalous magnetic moment in ...
We examine a number of recent proofs of the spin-statistics theorem. All, of course, get the target ...
In this paper the classical limit of relativistic transport theories for spin 1/2 fermions is examin...
We study the Dirac equation with slowly varying external potentials. Using matrix-valued Wigner func...
Using the mathematical structure of the Grassmann algebra, studied by Schonberg, we write down the P...
We address the propagation of the spin along classical trajectories for a spin-1/2 particle obeying ...
Starting from the Keldysh theory, for a general low energy $N$-band Hamiltonian in the clean limit, ...
The classical trajectory and spin precessions of Bargmann, Michel, and Telegdi are deduced from a ps...
We derive the quantum kinetic equations for massive and massless quarks coupled with the background ...
We analyze algebraic structure of a relativistic semi-classical Wigner function of massive particles...
The relativistic treatment of spin is a fundamental subject which has an old history. In various phy...
As is well known, for plasmas of high density and modest temperature, the classical kinetic theory n...
We consider the quantum kinetic-theory description for interacting massive spin-half fermions using ...
We reexamine the derivation of relativistic transport equations for fermions when conserving the mos...
We derive a quantum kinetic theory for QED based on Kadanoff-Baym equations for Wigner functions. By...
Lienard-Wiechert potentials of the relativistic spinning particle with anomalous magnetic moment in ...
We examine a number of recent proofs of the spin-statistics theorem. All, of course, get the target ...
In this paper the classical limit of relativistic transport theories for spin 1/2 fermions is examin...
We study the Dirac equation with slowly varying external potentials. Using matrix-valued Wigner func...
Using the mathematical structure of the Grassmann algebra, studied by Schonberg, we write down the P...
We address the propagation of the spin along classical trajectories for a spin-1/2 particle obeying ...
Starting from the Keldysh theory, for a general low energy $N$-band Hamiltonian in the clean limit, ...
The classical trajectory and spin precessions of Bargmann, Michel, and Telegdi are deduced from a ps...
We derive the quantum kinetic equations for massive and massless quarks coupled with the background ...
We analyze algebraic structure of a relativistic semi-classical Wigner function of massive particles...
The relativistic treatment of spin is a fundamental subject which has an old history. In various phy...
As is well known, for plasmas of high density and modest temperature, the classical kinetic theory n...
We consider the quantum kinetic-theory description for interacting massive spin-half fermions using ...
We reexamine the derivation of relativistic transport equations for fermions when conserving the mos...
We derive a quantum kinetic theory for QED based on Kadanoff-Baym equations for Wigner functions. By...
Lienard-Wiechert potentials of the relativistic spinning particle with anomalous magnetic moment in ...
We examine a number of recent proofs of the spin-statistics theorem. All, of course, get the target ...
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