2015
DOI: 10.1103/physrevlett.115.171604
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“Lagrangian” for a Non-Lagrangian Field Theory withN=2Supersymmetry

Abstract: We suggest that at least some of the strongly-coupled N = 2 QFTs in 4d can have a non-conformal N = 1 Lagrangian description flowing to them at low energies. In particular, we construct such a description for the N = 2 rank one superconformal field theory with E6 flavor symmetry, for which a Lagrangian description was previously unavailable. We utilize this description to compute several supersymmetric partition functions.Introduction: In 4d a standard definition of a quantum field theory (QFT) involves the sp… Show more

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Cited by 87 publications
(118 citation statements)
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“…The choice of superpotential should be consistent with global symmetry charges appearing in the index. The result is in agreement with twisted compactification of N = 1 4d theory proposed in [16] on S 2 . As we have discussed in section 2.2, crossing-symmetry implies the TQFT structure of the elliptic genus.…”
supporting
confidence: 81%
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“…The choice of superpotential should be consistent with global symmetry charges appearing in the index. The result is in agreement with twisted compactification of N = 1 4d theory proposed in [16] on S 2 . As we have discussed in section 2.2, crossing-symmetry implies the TQFT structure of the elliptic genus.…”
supporting
confidence: 81%
“…The result has an expression that can be interpreted as the index of a (0, 2) 2d theory. In particular, in the case when C is a three-punctured sphere and g = su(3), by solving an integral equation we find index which agrees with the result from [16]. In that paper, the authors propose an N = 1 4d gauge theory that flows in the IR to a strongly coupled 4d N = 2 T 3 theory with E 6 flavor symmetry.…”
Section: Jhep03(2016)185supporting
confidence: 68%
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