通量量化

arXiv - MATH - K-Theory and Homology Pub Date : 2024-02-28 DOI:arxiv-2402.18473

Hisham Sati, Urs Schreiber

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引用次数: 0

摘要

麦克斯韦类型的高规场--例如普通电磁场（"A场"），以及弦/M理论中考虑的B场、RR场和C场--的通量和电荷量化定律通过编码这些场的孤子行为，从而通过指定场通量来源的单个支链（高维单极子或孤子）所携带的离散电荷，来指定这些场的非微扰完备性。这篇文章探讨了一般（有理）同调理论对通量和电荷量化的理解，通量和电荷量化通过切尔诺-多尔德特性图泛化到非线性（自源）比安奇特性，这些特性出现在高维超引力理论中，特别是 D=10 的 B&RR 场、D=11 超引力中的 C 场和五布兰世界卷上的 B 场。

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Flux Quantization

Flux- and charge-quantization laws for higher gauge fields of Maxwell type -- e.g. the common electromagnetic field (the "A-field") but also the B-, RR-, and C-fields considered in string/M-theory -- specify non-perturbative completions of these fields by encoding their solitonic behaviour and hence by specifying the discrete charges carried by the individual branes (higher-dimensional monopoles or solitons) that source the field fluxes. This article surveys the general (rational-)homotopy theoretic understanding of flux- and charge-quantization via the Chern-Dold character map generalized to the non-linear (self-sourcing) Bianchi identities that appear in higher-dimensional supergravity theories, notably for B&RR-fields in D=10, for the C-field in D=11 supergravity, and for the B-field on fivebrane worldvolumes.

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arXiv - MATH - K-Theory and Homology

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