From N=4 Super-Yang-Mills on RP4 to bosonic Yang-Mills on RP2

Abstract

We study the four-dimensional N=4 super-Yang-Mills (SYM) theory on the unorientable spacetime manifold RP4. Using supersymmetric localization, we find that for a large class of local and extended SYM observables preserving a common supercharge Q, their expectation values are captured by an effective two-dimensional bosonic Yang-Mills (YM) theory on an RP2 submanifold. This paves the way for understanding N=4 SYM on RP4 using known results of YM on RP2. As an illustration, we derive a matrix integral form of the SYM partition function on RP4 which, when decomposed into discrete holonomy sectors, contains subtle phase factors due to the nontrivial η-invariant of the Dirac operator on RP4. We also comment on potential applications of our setup for AGT correspondence, integrability and bulk-reconstruction in AdS/CFT that involve cross-cap states on the boundary.