String Scale in Noncommutative Yang-Mills

N. Ishibashi; S. Iso; H. Kawai; Y. Kitazawa

arXiv:hep-th/0004038·hep-th·October 31, 2009

String Scale in Noncommutative Yang-Mills

N. Ishibashi, S. Iso, H. Kawai, Y. Kitazawa

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TL;DR

This paper identifies the effective string scale in noncommutative Yang-Mills theory using its supergravity dual, linking it to string theory on a von Neumann lattice and demonstrating consistency with T-duality.

Contribution

It establishes the effective string scale of NCYM via supergravity duals and connects NCYM to superstring theory on the von Neumann lattice, providing a nonperturbative perspective.

Findings

01

Effective string scale matches noncommutativity scale.

02

NCYM can reproduce Newton's force law in 4D.

03

Identification is consistent with T-duality (Morita equivalence).

Abstract

We identify the effective string scale of noncommutative Yang-Mills theory (NCYM) with the noncommutativity scale through its dual supergravity description. We argue that Newton's force law may be obtained with 4 dimensional NCYM with maximal SUSY. It provides a nonperturbative compactification mechanism of IIB matrix model. We can associate NCYM with the von Neumann lattice by the bi-local representation. We argue that it is superstring theory on the von Neumann lattice. We show that our identification of its effective string scale is consistent with exact T-duality (Morita equivalence) of NCYM.

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