Consistent truncation and generalized duality based on exceptional generalized cosets

Abstract

We present a systematic framework for constructing consistent truncations of supergravity based on exceptional generalized cosets of the form G/H. This approach generalizes the well-established generalized Scherk-Schwarz reductions on generalized parallelizable spaces G/H, which preserve maximal supersymmetry, to scenarios with reduced supersymmetry by introducing a non-trivial generalized structure group . The double coset structure plays two distinct roles: for a given G, the choice of subgroup determines the (constant) generalized torsion/curvature and the pattern of supersymmetry breaking, while H parameterizes inequivalent supergravity backgrounds that share the same truncated theory. The entire construction proceeds algebraically, systematically building -invariant tensors from generalized frame fields, with the intrinsic torsion automatically constant and a -singlet. Different choices of H lead to distinct higher-dimensional backgrounds that truncate to the same lower-dimensional theory, thereby realizing U-duality. We illustrate the framework through explicit examples in double field theory and exceptional field theory.

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