Add to ORKGWe give a simple derivation and expansion of a recently proposed new relativistic interaction between the electron and the spin angular momentum of the electromagnetic field in quantum electrodynamics (QED). Our derivation is based on the work of Moller, who pointed out that, in special relativity, a particle with spin must always have a finite extension. After generalizing Moller\u27s classical result to include both rotation and quantum effects, we show that it leads to a new contribution to the energy, which is the special relativistic interaction term. In addition, we show that all relativistic terms involving spin terms arising from the Dirac equation may be obtained by this method
We write the charge-free Maxwell equations in a form analogous to that of the Dirac equation for a f...
Various spin effects are expected to become observable in light-matter interaction at relativistic i...
We present Lagrangian which implies both necessary constraints and dynamical equations for position ...
Various spin effects are expected to become observable in light-matter interaction at relativistic i...
The angular momentum of the physical electron, modelled as a Dirac fermion coupled to the electromag...
Motivated by recent interest in relativistic electron vortex states, we revisit the spin and orbital...
As a relativistic quantum mechanical effect, it is shown that the electron field exerts a transverse...
International audienceOn the basis of the Dirac equation, a relativistic interaction Hamiltonian is ...
International audienceOn the basis of the Dirac equation, a relativistic interaction Hamiltonian is ...
International audienceOn the basis of the Dirac equation, a relativistic interaction Hamiltonian is ...
The role played by the linear and angular momentum of the electromagnetic fields in the un...
We study angular momentum of the electron stored in its electric and magnetic fields. We use for thi...
Various classical models of electrons including their spin degrees of freedom are commonly applied t...
We study theoretically by means of quantum electrodynamics the vortex radiation of a relativistic el...
Quantum-mechanical spin is often thought of in terms of classical angular momentum. In fact spin is ...
We write the charge-free Maxwell equations in a form analogous to that of the Dirac equation for a f...
Various spin effects are expected to become observable in light-matter interaction at relativistic i...
We present Lagrangian which implies both necessary constraints and dynamical equations for position ...
Various spin effects are expected to become observable in light-matter interaction at relativistic i...
The angular momentum of the physical electron, modelled as a Dirac fermion coupled to the electromag...
Motivated by recent interest in relativistic electron vortex states, we revisit the spin and orbital...
As a relativistic quantum mechanical effect, it is shown that the electron field exerts a transverse...
International audienceOn the basis of the Dirac equation, a relativistic interaction Hamiltonian is ...
International audienceOn the basis of the Dirac equation, a relativistic interaction Hamiltonian is ...
International audienceOn the basis of the Dirac equation, a relativistic interaction Hamiltonian is ...
The role played by the linear and angular momentum of the electromagnetic fields in the un...
We study angular momentum of the electron stored in its electric and magnetic fields. We use for thi...
Various classical models of electrons including their spin degrees of freedom are commonly applied t...
We study theoretically by means of quantum electrodynamics the vortex radiation of a relativistic el...
Quantum-mechanical spin is often thought of in terms of classical angular momentum. In fact spin is ...
We write the charge-free Maxwell equations in a form analogous to that of the Dirac equation for a f...
Various spin effects are expected to become observable in light-matter interaction at relativistic i...
We present Lagrangian which implies both necessary constraints and dynamical equations for position ...