We determine the gyromagnetic factor of the positronium ion, a three-body system consisting of two electrons and a positron, including first relativistic corrections. We find that the g-factor is modified by a term , exceeding 15 times the correction for a free electron. We compare this effect with analogous results found previously in atomic positronium and in hydrogen-like ions
Recent Standard Model predictions for the anomalous magnetic moments of the electron, muon and tau l...
A single electron in a quantum cyclotron provides the most precise measurement of the electron magne...
Within this thesis the g-factor of the valence electron bound in lithiumlike silicon 28Si11+ has be...
We have formulated the quasipotential method for the calculation of the relativistic and radiative c...
AbstractWe consider higher order corrections to the g factor of a bound proton in hydrogen atom and ...
In this letter, we recall the main facts concerning the g-factor of positronium and we show how the ...
The effect of a finite nuclear mass on the magnetic moment of the electron bound in the ground state...
The g-factor is a constant which connects the magnetic moment $vec{mu}$ of a charged particle, of ch...
We investigate the leading order correction of anomalous magnetic moment (AMM) to the electron in we...
The Landég factor describes the response of an atomic energy level to an external perturbation by a ...
AbstractWe have calculated all contributions to the energy levels of parapositronium at order mα7 co...
We have investigated the bound states of an electron and positron in superstrong magnetic fields typ...
We have investigated the bound states of an electron and positron in superstrong magnetic fields typ...
The electron and positron magnetic moments are the most precise prediction of the standard model of ...
Quantum electrodynamics (QED) is one of the most fundamental theories of physics and has been shown ...
Recent Standard Model predictions for the anomalous magnetic moments of the electron, muon and tau l...
A single electron in a quantum cyclotron provides the most precise measurement of the electron magne...
Within this thesis the g-factor of the valence electron bound in lithiumlike silicon 28Si11+ has be...
We have formulated the quasipotential method for the calculation of the relativistic and radiative c...
AbstractWe consider higher order corrections to the g factor of a bound proton in hydrogen atom and ...
In this letter, we recall the main facts concerning the g-factor of positronium and we show how the ...
The effect of a finite nuclear mass on the magnetic moment of the electron bound in the ground state...
The g-factor is a constant which connects the magnetic moment $vec{mu}$ of a charged particle, of ch...
We investigate the leading order correction of anomalous magnetic moment (AMM) to the electron in we...
The Landég factor describes the response of an atomic energy level to an external perturbation by a ...
AbstractWe have calculated all contributions to the energy levels of parapositronium at order mα7 co...
We have investigated the bound states of an electron and positron in superstrong magnetic fields typ...
We have investigated the bound states of an electron and positron in superstrong magnetic fields typ...
The electron and positron magnetic moments are the most precise prediction of the standard model of ...
Quantum electrodynamics (QED) is one of the most fundamental theories of physics and has been shown ...
Recent Standard Model predictions for the anomalous magnetic moments of the electron, muon and tau l...
A single electron in a quantum cyclotron provides the most precise measurement of the electron magne...
Within this thesis the g-factor of the valence electron bound in lithiumlike silicon 28Si11+ has be...