Add to ORKGIn this work, higher order QED binding corrections to the self-energy are calculated. It is our aim to determine the non-logarithmic contribution of the order α(Zα)6, which has proven to be a difficult task in the past. This is because due to the two energy scales present in the problem, one has to apply methods of quantum field theory as well as of relativistic atomic physics. These two energy scales are seperated by introducing an overlapping parameter. We present a numerical method where we use a discrete complete basis set on a lattice which allows us to avoid the problems encountered in the previous methods. Therefore, we can calculate this contribution for higher excited states that are important for high-precision spectroscopy but ha...
Expressions for the effective Quantum Electrodynamics (QED) Hamiltonian due to self-energy screening...
We study a specific correction to the Bethe logarithm induced by potentials which are proportional t...
The unprecedented precision achieved both in the experimental measurements as well as in the theoret...
In this work, higher order QED binding corrections to the self-energy are calculated. It is our aim ...
Quantum electrodynamic (QED) effects that shift the binding energies of hydrogenic energy levels hav...
Relativistic formulae for the energy level shifts due to electron self-energy corrections are derive...
Within a systematic approach based on nonrelativistic quantum electrodynamics, we derive the one-loo...
We investigate the self-energy of one electron coupled to a quantized radiation field by extending t...
AbstractCanonically, the quantum electrodynamic radiative corrections in bound systems have been eva...
Quantum electrodynamics has been the first theory to emerge from the ideas of regularization and ren...
The self-energy corrections to the hyperfine splitting is evaluated for higher excited states in hyd...
AbstractQuantum electrodynamic (QED) effects that shift the binding energies of hydrogenic energy le...
We investigate the asymptotic properties of higher-order binding corrections to the one-loop self-en...
A simple method to compute QED bound state properties is presented, in which binding energy effects ...
We discuss the ε method as used in various recent QED bound-state calculations by considering mathem...
Expressions for the effective Quantum Electrodynamics (QED) Hamiltonian due to self-energy screening...
We study a specific correction to the Bethe logarithm induced by potentials which are proportional t...
The unprecedented precision achieved both in the experimental measurements as well as in the theoret...
In this work, higher order QED binding corrections to the self-energy are calculated. It is our aim ...
Quantum electrodynamic (QED) effects that shift the binding energies of hydrogenic energy levels hav...
Relativistic formulae for the energy level shifts due to electron self-energy corrections are derive...
Within a systematic approach based on nonrelativistic quantum electrodynamics, we derive the one-loo...
We investigate the self-energy of one electron coupled to a quantized radiation field by extending t...
AbstractCanonically, the quantum electrodynamic radiative corrections in bound systems have been eva...
Quantum electrodynamics has been the first theory to emerge from the ideas of regularization and ren...
The self-energy corrections to the hyperfine splitting is evaluated for higher excited states in hyd...
AbstractQuantum electrodynamic (QED) effects that shift the binding energies of hydrogenic energy le...
We investigate the asymptotic properties of higher-order binding corrections to the one-loop self-en...
A simple method to compute QED bound state properties is presented, in which binding energy effects ...
We discuss the ε method as used in various recent QED bound-state calculations by considering mathem...
Expressions for the effective Quantum Electrodynamics (QED) Hamiltonian due to self-energy screening...
We study a specific correction to the Bethe logarithm induced by potentials which are proportional t...
The unprecedented precision achieved both in the experimental measurements as well as in the theoret...