Tame embeddings, volume growth, and complexity of moduli spaces

Publication date

2025-11-24

Authors

Grimm, ThomasISNI 0000000492888077
Prieto, David
Van Vliet, MickISNI 0000000527855698

Editors

Advisors

Supervisors

Document Type

Article
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License

cc_by

Abstract

Quantum gravity is expected to impose constraints on the moduli spaces of massless fields that can arise in effective quantum field theories. A recent proposal asserts that the asymptotic volume growth of these spaces is severely restricted, and related to the existence of duality symmetries. In this work we link this proposal to a tameness criterion, by suggesting that any consistent moduli space should admit a tame isometric embedding into Euclidean space. This allows us to promote the volume growth constraint to a local condition, and give the growth coefficient a geometric interpretation in terms of complexity. We study the implications of this proposal for the emergence of dualities, as well as for the curvature and infinite distance limits of moduli spaces.

Keywords

Black-holes, Field

Citation

Grimm, T W, Prieto, D & van Vliet, M 2025, 'Tame embeddings, volume growth, and complexity of moduli spaces', Physical Review D, vol. 112, no. 10, 106015. https://doi.org/10.1103/d51c-j1s9