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arxiv: 2112.13616 · v3 · pith:XOYIKNR5 · submitted 2021-12-27 · hep-th · math-ph· math.MP

Duality Cascades and Affine Weyl Groups

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classification hep-th math-phmath.MP
keywords weylaffinecascadesdualitygroupdomainfundamentalgroups
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Brane configurations in a circle allow subsequent applications of the Hanany-Witten transitions, which are known as duality cascades. By studying the process of duality cascades corresponding to quantum curves with symmetries of Weyl groups, we find a hidden structure of affine Weyl groups. Namely, the fundamental domain of duality cascades consisting of all the final destinations is characterized by the affine Weyl chamber and the duality cascades are realized as translations of the affine Weyl group, where the overall rank in the brane configuration associates to the grading operator of the affine algebra. The structure of the affine Weyl group guarantees the finiteness of the processes and the uniqueness of the endpoint of the duality cascades. In addition to the original duality cascades, we can generalize to the cases with Fayet-Iliopoulos parameters. There we can utilize the Weyl group to analyze the fundamental domain similarly and find that the fundamental domain continues to be the affine Weyl chamber. We further interpret the Weyl group we impose as a "half" of the Hanany-Witten transition.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Factorized Quantum Curves and Minuscule Vertices in 3D Duality Cascades with FI Parameters

    hep-th 2026-06 unverdicted novelty 6.0

    Factorized quantum curves extend to FI parameters in 3D duality cascades, realizing Voronoi polytope vertices of exceptional root lattices as extremal brane configurations.