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M5-Branes, D4-Branes and Quantum 5D super-Yang-Mills

Neil Lambert, Constantinos Papageorgakis, Maximilian Schmidt-Sommerfeld

Abstract

We revisit the relation of the six-dimensional (2,0) M5-brane Conformal Field Theory compactified on a circle to 5D maximally supersymmetric Yang-Mills Gauge Theory. We show that in the broken phase 5D super-Yang-Mills contains a spectrum of soliton states that can be identified with the complete Kaluza-Klein modes of an M2-brane ending on the M5-branes. This provides evidence that the (2,0) theory on a circle is equivalent to 5D super-Yang-Mills with no additional UV degrees of freedom, suggesting that the latter is in fact a well-defined quantum theory and possibly finite.

M5-Branes, D4-Branes and Quantum 5D super-Yang-Mills

Abstract

We revisit the relation of the six-dimensional (2,0) M5-brane Conformal Field Theory compactified on a circle to 5D maximally supersymmetric Yang-Mills Gauge Theory. We show that in the broken phase 5D super-Yang-Mills contains a spectrum of soliton states that can be identified with the complete Kaluza-Klein modes of an M2-brane ending on the M5-branes. This provides evidence that the (2,0) theory on a circle is equivalent to 5D super-Yang-Mills with no additional UV degrees of freedom, suggesting that the latter is in fact a well-defined quantum theory and possibly finite.

Paper Structure

This paper contains 7 sections, 43 equations.

Table of Contents

  1. Introduction
  2. 5D super-Yang-Mills
  3. Dyonic Instantons as Wrapped Strings with KK momentum
  4. Monopoles as Unwrapped Strings with KK momentum
  5. Other States
  6. A Higgs Mechanism for tensor non-Abelian multiplets
  7. Conclusion