Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2009-07-07
Physics
High Energy Physics
High Energy Physics - Theory
24 pages, 7 figures; v2 fixes some typographical and sign errors
Scientific paper
The Dirac quantization procedure of a magnetic monopole can be used to derive the coefficient of the D=3 Chern-Simons term through a self-consistency argument, which can be readily generalized to any odd D. This yields consistent and covariant axial anomaly coefficients on a D-1 boundary, and Chern-Simons term coefficients in D. In D=3 magnetic monopoles cannot exist if the Chern-Simons AdA term is present. The Dirac solenoid then becomes a physical closed string carrying electric current. The charge carriers on the string must be consistent with the charge used to quantize the Dirac solenoidal flux. This yields the Chern-Simons term coefficient. In higher odd D the intersection of (D-1)/2 Dirac branes yields a charged world-line permitting the consistency argument. The covariant anomaly coefficients follow readily from generalizing the counterterm. This purely bosonic derivation of anomalies is quite simple, involving semiclassical evaluation of exact integrals, like \int dAdA...dA, in the brane intersections.
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