Abstract
Abstract
We discuss some topological constraints on Type IIB string theory that cannot be described by elementary characteristic classes. Anomaly cancellation of the worldvolume theory of a D3-brane requires a shifted Dirac quantization condition of the Ramond-Ramond 5-form flux. However, the required shift is sometimes inconsistent depending on the topology of spacetime backgrounds. The obstruction to the existence of a shifted quantization is described by a degree-6 cohomology class whose definition involves spin structure of spacetime manifolds. The cohomology class is interpreted as a background D3-charge, and the Gauss law constraint requires inclusion of additional D3-branes to cancel it.
Publisher
Springer Science and Business Media LLC
Reference102 articles.
1. E. Witten, Global anomalies in string theory, in the proceedings of the Symposium on Anomalies, Geometry, Topology, Argonne, U.S.A., March 28–30 (1985) [INSPIRE].
2. K. Yonekura, Heterotic global anomalies and torsion Witten index, JHEP 10 (2022) 114 [arXiv:2207.13858] [INSPIRE].
3. E. Witten, World sheet corrections via D instantons, JHEP 02 (2000) 030 [hep-th/9907041] [INSPIRE].
4. Y. Tachikawa and K. Yonekura, Why are fractional charges of orientifolds compatible with Dirac quantization?, SciPost Phys. 7 (2019) 058 [arXiv:1805.02772] [INSPIRE].
5. H. Sati and U. Schreiber, Flux Quantization, arXiv:2402.18473 [INSPIRE].
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