Add to ORKGA role of the renormalization group invariance in calculations of the ground state energy for models with confined fermion fields is discussed. The case of the (1+1)D MIT bag with massive fermions is studied in detail
We consider a dielectric medium with an ultraviolet behavior as it follows from the Drude model. Com...
This work analyzes the Casimir energy of a massive scalar field propagating in flat space endowed wi...
Through the application of mathematical methods developed in a recent paper, we obtain a closed expr...
The vacuum energies corresponding to massive Dirac fields with the boundary conditions of the MIT ba...
We study the Casimir contribution to the bag energy coming from gluon field fluctuations, within the...
A method for renormalization of the Casimir energy of confined fermion fields in (1+1)D is proposed....
We study the effect of a background flux string on the vacuum energy of massive Dirac fermions in 3+...
We study the effect of a background flux string on the vacuum energy of massive Dirac fermions in 2+...
The zero-point (Casimir) energy of free vector (gluon) fields confined to a spherical cavity (bag) i...
In this paper, we consider the Casimir energy of massless scalar field which satisfy Dirichlet bound...
Four-dimensional asymptotically free large N gauge theories compactified on SR3×R have a weakly coup...
Similarity renormalization group procedure identifies the role of bound states in the low-energy rat...
The vacuum energy of a scalar field in a spherically symmetric background field is considered. It is...
In this paper we calculate the Casimir energy for spherical shell with massless self-interacting sca...
The vacuum energy of the Yang-Mills field is examined for the conditions of the bag model. The domin...
We consider a dielectric medium with an ultraviolet behavior as it follows from the Drude model. Com...
This work analyzes the Casimir energy of a massive scalar field propagating in flat space endowed wi...
Through the application of mathematical methods developed in a recent paper, we obtain a closed expr...
The vacuum energies corresponding to massive Dirac fields with the boundary conditions of the MIT ba...
We study the Casimir contribution to the bag energy coming from gluon field fluctuations, within the...
A method for renormalization of the Casimir energy of confined fermion fields in (1+1)D is proposed....
We study the effect of a background flux string on the vacuum energy of massive Dirac fermions in 3+...
We study the effect of a background flux string on the vacuum energy of massive Dirac fermions in 2+...
The zero-point (Casimir) energy of free vector (gluon) fields confined to a spherical cavity (bag) i...
In this paper, we consider the Casimir energy of massless scalar field which satisfy Dirichlet bound...
Four-dimensional asymptotically free large N gauge theories compactified on SR3×R have a weakly coup...
Similarity renormalization group procedure identifies the role of bound states in the low-energy rat...
The vacuum energy of a scalar field in a spherically symmetric background field is considered. It is...
In this paper we calculate the Casimir energy for spherical shell with massless self-interacting sca...
The vacuum energy of the Yang-Mills field is examined for the conditions of the bag model. The domin...
We consider a dielectric medium with an ultraviolet behavior as it follows from the Drude model. Com...
This work analyzes the Casimir energy of a massive scalar field propagating in flat space endowed wi...
Through the application of mathematical methods developed in a recent paper, we obtain a closed expr...