Journal
JOURNAL OF HIGH ENERGY PHYSICS
Volume -, Issue 3, Pages -Publisher
SPRINGER
DOI: 10.1007/JHEP03(2017)171
Keywords
Conformal Field Theory; Field Theories in Higher Dimensions; Supersymmetric Gauge Theory
Categories
Funding
- NSF CAREER [PHY-1452037]
- Bahnson Fund at UNC Chapel Hill as well as the R. J. Reynolds Industries, Inc
- Office of the Executive Vice Chancellor and Provost at UNC Chapel Hill
- NSF [PHY-1067976]
- NSF GRF [DGE-1144152]
- Division Of Physics
- Direct For Mathematical & Physical Scien [1418114] Funding Source: National Science Foundation
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With the aim of understanding compactifications of 6D superconformal field theories to four dimensions, we study punctures for theories of class S?. The class S? theories arise from M5-branes probing C-2/Gamma, an ADE singularity. The resulting 4D theories descend from compactification on Riemann surfaces decorated with punctures. We show that for class S-Gamma theories, a puncture is specified by singular boundary conditions for fields in the 5D quiver gauge theory obtained from compactification of the 6D theory on a cylinder geometry. We determine general boundary conditions and study in detail solutions with first order poles. This yields a generalization of the Nahm pole data present for 1/2 BPS punctures for theories of class S. Focusing on specific algebraic structures, we show how the standard discussion of nilpotent orbits and its connection to representations of su(2) generalizes in this broader context.
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