Add to ORKGWe develop an unambiguous and practical method to calculate one-loop quantum corrections to the energies of classical time-independent field configurations in renormalizable field theories. We show that the standard perturbative renormalization procedure suffices here as well. We apply our method to a simplified model where a charged scalar couples to a neutral "Higgs" field, and compare our results to the derivative expansion
We consider here renormalizable theories without relevant couplings and present an I.R. consistent t...
Employing background-field method and super-heat-kernel expansion, we compute the complete oneloop r...
Employing background-field method and super-heat-kernel expansion, we compute the complete oneloop r...
We present a regularized and renormalized version of the one-loop nonlinear relaxation equations tha...
We find static solitons stabilized by quantum corrections in a (1+1)-dimensional model with a scalar...
We demonstrate an unambiguous and robust method for computing fermionic corrections to the energies ...
The usual mathematical formalism of quantum field theory is not rigorous because it contains diverge...
We derive the renormalized equations of motion and the renormalized energy-momentum tensor for fermi...
A practical approach is presented which allows the use of a non-invariant regularization scheme for ...
The bare one loop soliton quantum mass corrections can be expressed in two ways: as a sum over the z...
69 pages, 26 figuresInternational audienceWe discuss the renormalization of \Phi-derivable approxima...
9 pagesInternational audienceWe reanalyze the perturbative radiative corrections to the Higgs mass w...
69 pages, 26 figuresInternational audienceWe discuss the renormalization of \Phi-derivable approxima...
9 pagesInternational audienceWe reanalyze the perturbative radiative corrections to the Higgs mass w...
When a nonrelativistic particle interacts with a scalar quantum field, the standard perturbation the...
We consider here renormalizable theories without relevant couplings and present an I.R. consistent t...
Employing background-field method and super-heat-kernel expansion, we compute the complete oneloop r...
Employing background-field method and super-heat-kernel expansion, we compute the complete oneloop r...
We present a regularized and renormalized version of the one-loop nonlinear relaxation equations tha...
We find static solitons stabilized by quantum corrections in a (1+1)-dimensional model with a scalar...
We demonstrate an unambiguous and robust method for computing fermionic corrections to the energies ...
The usual mathematical formalism of quantum field theory is not rigorous because it contains diverge...
We derive the renormalized equations of motion and the renormalized energy-momentum tensor for fermi...
A practical approach is presented which allows the use of a non-invariant regularization scheme for ...
The bare one loop soliton quantum mass corrections can be expressed in two ways: as a sum over the z...
69 pages, 26 figuresInternational audienceWe discuss the renormalization of \Phi-derivable approxima...
9 pagesInternational audienceWe reanalyze the perturbative radiative corrections to the Higgs mass w...
69 pages, 26 figuresInternational audienceWe discuss the renormalization of \Phi-derivable approxima...
9 pagesInternational audienceWe reanalyze the perturbative radiative corrections to the Higgs mass w...
When a nonrelativistic particle interacts with a scalar quantum field, the standard perturbation the...
We consider here renormalizable theories without relevant couplings and present an I.R. consistent t...
Employing background-field method and super-heat-kernel expansion, we compute the complete oneloop r...
Employing background-field method and super-heat-kernel expansion, we compute the complete oneloop r...