Add to ORKGThe effective gauge field actions generated by charged fermions in QED_3 and QCD_3 can be made invariant under both small and large gauge transformations at any temperature by suitable regularization of the Dirac operator determinant, at the price of parity anomalies. We resolve the paradox that the perturbative expansion is not invariant, as manifested by the temperature dependence of the induced Chern-Simons term, by showing that large (unlike small) transformations and hence their Ward identities are not perturbative order preserving. Our results are illustrated through concrete examples of field configurations, where the interplay between gauge and parity anomalies is also exhibited
Both the parity-breaking and parity-invariant parts of the effective action for the gauge field in Q...
AbstractThe parity-preserving massive QED3 exhibits vanishing gauge coupling β-function and is parit...
We formulate lattice perturbation theory for gauge theories in noncommutative geometry. We apply it ...
The effective gauge field actions generated by charged fermions in QED_3 and QCD_3 can be made invar...
The effective gauge field actions generated by charged fermions in $QED_3$ and $QCD_3$ can be made i...
We compute the exact induced parity-breaking part of the effective action for 2 + 1 massive fermions...
We study the parity-breaking terms generated by the box diagram in 2+1 dimensional thermal QED. Thes...
We analyze and give explicit representations for the effective Abelian vector gauge field actions ge...
The parity-violating topological term in the effective action for 2+1 massive fermions is computed a...
We examine finite temperature perturbation theory for Chern-Simons theories, in the context of an an...
We discuss the behavior of theories of fermions coupled to Chern-Simons gauge fields with a non-abel...
We discuss the behavior of theories of fermions coupled to Chern-Simons gauge fields with a non-abel...
We analyze large gauge invariance in the non-Abelian, finite temperature context and its physical co...
We analyze large gauge invariance in the non-Abelian, finite temperature context and its physical co...
The parity-preserving massive QED 3 exhibits vanishing gauge coupling β -function and is parity and ...
Both the parity-breaking and parity-invariant parts of the effective action for the gauge field in Q...
AbstractThe parity-preserving massive QED3 exhibits vanishing gauge coupling β-function and is parit...
We formulate lattice perturbation theory for gauge theories in noncommutative geometry. We apply it ...
The effective gauge field actions generated by charged fermions in QED_3 and QCD_3 can be made invar...
The effective gauge field actions generated by charged fermions in $QED_3$ and $QCD_3$ can be made i...
We compute the exact induced parity-breaking part of the effective action for 2 + 1 massive fermions...
We study the parity-breaking terms generated by the box diagram in 2+1 dimensional thermal QED. Thes...
We analyze and give explicit representations for the effective Abelian vector gauge field actions ge...
The parity-violating topological term in the effective action for 2+1 massive fermions is computed a...
We examine finite temperature perturbation theory for Chern-Simons theories, in the context of an an...
We discuss the behavior of theories of fermions coupled to Chern-Simons gauge fields with a non-abel...
We discuss the behavior of theories of fermions coupled to Chern-Simons gauge fields with a non-abel...
We analyze large gauge invariance in the non-Abelian, finite temperature context and its physical co...
We analyze large gauge invariance in the non-Abelian, finite temperature context and its physical co...
The parity-preserving massive QED 3 exhibits vanishing gauge coupling β -function and is parity and ...
Both the parity-breaking and parity-invariant parts of the effective action for the gauge field in Q...
AbstractThe parity-preserving massive QED3 exhibits vanishing gauge coupling β-function and is parit...
We formulate lattice perturbation theory for gauge theories in noncommutative geometry. We apply it ...