Add to ORKGWithin the context of a bosonized theory, we evaluate the current-current correlation functions corresponding to a massive Dirac field in 2+1 dimensions, which is constrained to a spatial half-plane. The boundary conditions are imposed on the dual theory, and have the form of of perfect-conductor conditions. We also consider, for the sake of comparison, the purely fermionic version of the model and its boundary conditions, in the large-mass limit. We apply the result about the dual theory to the evaluation of induced vacuum currents in the presence of an external field, in a spatial half-plane.Facultad de Ciencias Exacta
The effect of vacuum polarization of charged massive fermions in an Aharonov–Bohm (AB) potential in ...
We describe two distinct approaches for bosonization in higher dimensions; one is based on a direct ...
We show that the functional bosonization procedure can be generalized in such a way that, to any fie...
We apply the functional bosonization procedure to a massive Dirac field defined on a 2+1 dimensional...
We apply the functional bosonization procedure to a massive Dirac field defined on a 2 + 1 dimension...
We discuss bosonization in three dimensions by establishing a connection between the massive Thirrin...
Here we address the problem of bosonizing massive fermions without making expansions in the fermion ...
We study the bosonization of massless fermions in three-dimensional space-time. Using the path-integ...
We present a path-integral bosonization approach for systems out of equilibrium based on a duality t...
AbstractMaxwell–Chern–Simons models in the presence of an instanton–anti-instanton background are st...
We present a path-integral bosonization approach for systems out of equilibrium based on a duality t...
We demonstrate that, in 1+1 dimensions, the effective action produced by massless fermions moving in...
We develop a new approach for bosonization based on the direct comparison of current correlation fun...
We study the polarization tensor of a Dirac field in (3 þ 1) dimensions confined to a half-space—a p...
We bosonize the Massive Thirring Model in 3+1D for small coupling constant and arbitrary mass. The b...
The effect of vacuum polarization of charged massive fermions in an Aharonov–Bohm (AB) potential in ...
We describe two distinct approaches for bosonization in higher dimensions; one is based on a direct ...
We show that the functional bosonization procedure can be generalized in such a way that, to any fie...
We apply the functional bosonization procedure to a massive Dirac field defined on a 2+1 dimensional...
We apply the functional bosonization procedure to a massive Dirac field defined on a 2 + 1 dimension...
We discuss bosonization in three dimensions by establishing a connection between the massive Thirrin...
Here we address the problem of bosonizing massive fermions without making expansions in the fermion ...
We study the bosonization of massless fermions in three-dimensional space-time. Using the path-integ...
We present a path-integral bosonization approach for systems out of equilibrium based on a duality t...
AbstractMaxwell–Chern–Simons models in the presence of an instanton–anti-instanton background are st...
We present a path-integral bosonization approach for systems out of equilibrium based on a duality t...
We demonstrate that, in 1+1 dimensions, the effective action produced by massless fermions moving in...
We develop a new approach for bosonization based on the direct comparison of current correlation fun...
We study the polarization tensor of a Dirac field in (3 þ 1) dimensions confined to a half-space—a p...
We bosonize the Massive Thirring Model in 3+1D for small coupling constant and arbitrary mass. The b...
The effect of vacuum polarization of charged massive fermions in an Aharonov–Bohm (AB) potential in ...
We describe two distinct approaches for bosonization in higher dimensions; one is based on a direct ...
We show that the functional bosonization procedure can be generalized in such a way that, to any fie...