Superconnections, Anomalies and Non-BPS Brane Charges

TL;DR

This paper uses superconnection formalism to analyze brane-antibrane systems in superstring theory, computing anomalies, couplings, and demonstrating how D-brane charges are classified by K-homology.

Contribution

It introduces a superconnection approach to study D-brane systems, linking anomalies, tachyon condensation, and K-theoretic classification in a unified framework.

Findings

Computed chiral gauge anomalies using index theorems.

Derived spectral action showing tachyon condensation processes.

Linked Chern-Simons couplings to K-theory and Fredholm modules.

Abstract

The properties of brane-antibrane systems and systems of unstable D-branes in Type II superstring theory are investigated using the formalism of superconnections. The low-energy open string dynamics is shown to be probed by generalized Dirac operators. The corresponding index theorems are used to compute the chiral gauge anomalies in these systems, and hence their gravitational and Ramond-Ramond couplings. A spectral action for the generalized Dirac operators is also computed and shown to exhibit precisely the expected processes of tachyon condensation on the brane worldvolumes. The Chern-Simons couplings are thereby shown to be naturally related to Fredholm modules and bivariant K-theory, confirming the expectations that D-brane charge is properly classified by K-homology.