Your search keyword '"Francesco Capponi"' showing total 3 results

1. Renormalisation of the scalar energy-momentum tensor with the Wilson flow

Author

Luigi Del Debbio, Antonin Portelli, Roberto Pellegrini, Antonio Rago, Francesco Capponi, and Susanne Ehret

Subjects

Weyl tensor, Physics, High Energy Physics::Lattice, Lattice field theory, High Energy Physics - Lattice (hep-lat), FOS: Physical sciences, Computer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing), 16. Peace & justice, 01 natural sciences, Tensor field, symbols.namesake, Einstein tensor, High Energy Physics - Lattice, 0103 physical sciences, Lanczos tensor, symbols, Stress–energy tensor, 010306 general physics, Tensor density, Scalar field, Mathematical physics

Abstract

The non-perturbative computation of the energy-momentum tensor can be used to study the scaling behaviour of strongly coupled quantum field theories. The Wilson flow is an essential tool to find a meaningful formulation of the energy-momentum tensor on the lattice. We extend recent studies of the renormalisation of the energy-momentum tensor in four-dimensional gauge theory to the case of a three-dimensional scalar theory to investigate its intrinsic structure and numerical feasibility on a more basic level. In this paper, we discuss translation Ward identities, introduce the Wilson flow for scalar theory, and present our results for the renormalisation constants of the scalar energy-momentum tensor., Comment: Talk presented at the 34th International Symposium on Lattice Field Theory (Lattice 2016) by Susanne Ehret

Published

2016

2. Renormalization constants of the lattice energy momentum tensor using the gradient flow

Author

Agostino Patella, Antonio Rago, Luigi Del Debbio, and Francesco Capponi

Subjects

Physics, Lattice energy, 010308 nuclear & particles physics, High Energy Physics::Lattice, High Energy Physics - Lattice (hep-lat), FOS: Physical sciences, Particle Physics - Lattice, Observable, 01 natural sciences, Composite operator, Renormalization, High Energy Physics - Lattice, Lattice (order), 0103 physical sciences, Stress–energy tensor, Non-perturbative, Balanced flow, 010306 general physics, Mathematical physics

Abstract

We employ a new strategy for a non perturbative determination of the renormalized energy momentum tensor. The strategy is based on the definition of suitable lattice Ward identities probed by observables computed along the gradient flow. The new set of identities exhibits many interesting qualities, arising from the UV finiteness of flowed composite operators. In this paper we show how this method can be used to non perturbatively renormalize the energy momentum tensor for a SU(3) Yang-Mills theory, and report our numerical results. We employ a new strategy for a non perturbative determination of the renormalized energy momentum tensor. The strategy is based on the definition of suitable lattice Ward identities probed by observables computed along the gradient flow. The new set of identities exhibits many interesting qualities, arising from the UV finiteness of flowed composite operators. In this paper we show how this method can be used to non perturbatively renormalize the energy momentum tensor for a SU(3) Yang-Mills theory, and report our numerical results.

Published

2015

3. Renormalisation of the energy-momentum tensor in scalar field theory using the Wilson flow

Author

Susanne Ehret, Antonio Rago, Luigi Del Debbio, Francesco Capponi, and Roberto Pellegrini

Subjects

Physics, Scalar field theory, 010308 nuclear & particles physics, High Energy Physics::Lattice, Lattice field theory, High Energy Physics - Lattice (hep-lat), High Energy Physics::Phenomenology, FOS: Physical sciences, Computer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing), 01 natural sciences, High Energy Physics - Lattice, Lattice (order), 0103 physical sciences, Stress–energy tensor, Mathematical physics

Abstract

A non-perturbative renormalisation prescription for the energy-momentum tensor, based on space-time symmetries along the Wilson flow, has been proposed recently in the context of 4-dimensional gauge theories. We extend this construction to the case of a scalar field theory, and investigate its numerical feasibility by studying Ward identities in 3-dimensional scalar field theory. After introducing the Wilson flow for the scalar field theory we discuss its renormalisation properties and the determination of the renormalisation constants for the energy-momentum tensor., Talk presented at the 33rd International Symposium on Lattice Field Theory (Lattice 2015) by Susanne Ehret

Published

2015