Quantum Spacetimes and Finite N Effects in 4D Super Yang-Mills Theories
Abstract
The truncation in the number of single-trace chiral primary operators of =4 SYM and its conjectured connection with gravity on quantum spacetimes are elaborated. The model of quantum spacetime we use is AdS5q × S5q for q a root of unity. The quantum sphere is defined as a homogeneous space with manifest SUq(3) symmetry, but as anticipated from the field theory correspondence, we show that there is a hidden SOq(6) symmetry in the constrution. We also study some properties of quantum space quotients as candidate models for the quantum spacetime relevant for some Zn quiver quotients of the =4 theory which break SUSY to =2. We find various qualitative agreements between the proposed models and the properties of the corresponding finite N gauge theories.
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