Add to ORKGWe develop the formalism for the one-loop no-boundary state in a cosmological model with fermions. We use it to calculate the reduced density matrix for an inflaton field by tracing out the fermionic degrees of freedom, yielding both the fermionic effective action and the standard decoherence factor. We show that dimensional regularisation of ultraviolet divergences would lead to an inconsistent density matrix. Suppression of these divergences to zero is instead performed through a nonlocal Bogoliubov transformation of the fermionic variables, which leads to a consistent density matrix. The resulting degree of decoherence is less than in the case of bosonic fields
The creation of matter in the early universe or in relativistic heavy-ion collisions is inevitable c...
We complete the proof of bosonization of non-interacting non-relativistic fermions in one space dime...
We present a quantitative study of the quantum decoherence of curvature perturbations during inflati...
Quantum field theory is indispensable for understanding many aspects of cosmology, both in the early...
The results of some simple calculations designed to study quantum decoherence are presented. The phy...
Primordial fluctuations in inflationary cosmology acquire classical properties through decoherence w...
We analyze the quantum cosmology of the simplest pre--big--bang model without dilaton potential. In ...
We examine environmental decoherence of cosmological perturbations in order to study the quantum-to-...
An analysis of the decoherence of quantum fluctuations shows that production of classical adiabatic ...
In this thesis, we study the decoherence of cosmological scalar perturbations during inflation. We f...
We study the decoherence of massive fields during inflation based on the Zurek’s density matrix appr...
We derive the renormalized equations of motion and the renormalized energy-momentum tensor for fermi...
The creation of a quantum Universe is described by a {\em density matrix} which yields an ensemble o...
We consider dephasing by interactions in a one-dimensional chiral fermion system (e.g., a quantum Ha...
4 pages, 3 figures.International audienceWe study the real-time evolution of a self-interacting O(N)...
The creation of matter in the early universe or in relativistic heavy-ion collisions is inevitable c...
We complete the proof of bosonization of non-interacting non-relativistic fermions in one space dime...
We present a quantitative study of the quantum decoherence of curvature perturbations during inflati...
Quantum field theory is indispensable for understanding many aspects of cosmology, both in the early...
The results of some simple calculations designed to study quantum decoherence are presented. The phy...
Primordial fluctuations in inflationary cosmology acquire classical properties through decoherence w...
We analyze the quantum cosmology of the simplest pre--big--bang model without dilaton potential. In ...
We examine environmental decoherence of cosmological perturbations in order to study the quantum-to-...
An analysis of the decoherence of quantum fluctuations shows that production of classical adiabatic ...
In this thesis, we study the decoherence of cosmological scalar perturbations during inflation. We f...
We study the decoherence of massive fields during inflation based on the Zurek’s density matrix appr...
We derive the renormalized equations of motion and the renormalized energy-momentum tensor for fermi...
The creation of a quantum Universe is described by a {\em density matrix} which yields an ensemble o...
We consider dephasing by interactions in a one-dimensional chiral fermion system (e.g., a quantum Ha...
4 pages, 3 figures.International audienceWe study the real-time evolution of a self-interacting O(N)...
The creation of matter in the early universe or in relativistic heavy-ion collisions is inevitable c...
We complete the proof of bosonization of non-interacting non-relativistic fermions in one space dime...
We present a quantitative study of the quantum decoherence of curvature perturbations during inflati...