Loop variables for compact two-dimensional quantum electrodynamics

Gambini, Rodolfo; Morales-Tecotl, Hugo A.; Urrutia, Luis F.; Vergara, J.David

doi:10.1103/PhysRevD.57.3711

Loop variables for compact two-dimensional quantum electrodynamics

Rodolfo Gambini
(
- Republica U., Montevideo
)
,
Hugo A. Morales-Tecotl
(
- Mexico City U., Iztapalapa and
- ICTP, Trieste
)
,
Luis F. Urrutia
(
- Mexico U., ICN
)
,
J.David Vergara
(
- Mexico U., ICN
)

Dec, 1997

24 pages

Published in:

Phys.Rev.D 57 (1998) 3711-3724

e-Print:

hep-th/9712096 [hep-th]

DOI:

10.1103/PhysRevD.57.3711

Report number:

ICN-UNAM-1201-97

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Abstract:

Variables parametrized by closed and open curves are defined to reformulate compact U(1) Quantum Electrodynamics in the circle with a massless fermion field. It is found that the gauge invariant nature of these variables accommodates into a regularization scheme for the Hamiltonian and current operators that is specially well suited for the study of the compact case. The zero mode energy spectrum, the value of the axial anomaly and the anomalous commutators this model presents are hence determined in a manifestly gauge invariant manner. Contrary to the non compact case, the zero mode spectrum is not equally spaced and consequently the theory does not lead to the spectrum of a free scalar boson. All the states are invariant under large gauge transformations. In particular, that is the case for the vacuum, and consequently the

\theta

-dependence does not appear.

quantum electrodynamics
dimension: 2
loop space
Hamiltonian formalism
quantization: constraint

References(25)

Figures(0)

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