Dual descriptions of SO(10) supersymmetric gauge theories with arbitrary numbers of spinors and vectors

We examine the low-energy structure of N=1 supersymmetric SO(10) gauge theory with matter chiral superfields in N-Q spinor and N-f vector representations. We construct a dual to this model based upon an SU(N-f + 2N(Q) - 7) X Sp(2N(Q) - 2) gauge group without utilizing deconfinement methods. This product theory generalizes all previously known Pouliot-type duals to SO(N-c) models with spinor and vector matter. It also yields large numbers of new dual pairs along various flat directions. The dual description of the SO(10) theory satisfies multiple consistency checks including an intricate renormalization group flow analysis which links it with Seiberg's duality transformations. We discuss its implications for building grand-unified theories that contain all standard model fields as composite degrees of freedom. [S0556-2821(97)00721-2].