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E10 and SO(9,9) invariant supergravity

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abstract

We show that (massive) D=10 type IIA supergravity possesses a hidden rigid SO(9,9) symmetry and a hidden local SO(9) x SO(9) symmetry upon dimensional reduction to one (time-like) dimension. We explicitly construct the associated locally supersymmetric Lagrangian in one dimension, and show that its bosonic sector, including the mass term, can be equivalently described by a truncation of an E10/K(E10) non-linear sigma-model to the level \ell<=2 sector in a decomposition of E10 under its so(9,9) subalgebra. This decomposition is presented up to level 10, and the even and odd level sectors are identified tentatively with the Neveu--Schwarz and Ramond sectors, respectively. Further truncation to the level \ell=0 sector yields a model related to the reduction of D=10 type I supergravity. The hyperbolic Kac--Moody algebra DE10, associated to the latter, is shown to be a proper subalgebra of E10, in accord with the embedding of type I into type IIA supergravity. The corresponding decomposition of DE10 under so(9,9) is presented up to level 5.

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math.RA 1

years

2026 1

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UNVERDICTED 1

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On a new class of high-corank Kac-Moody algebras

math.RA · 2026-07-01 · unverdicted · novelty 7.0

Recursive multigraph-based constructions produce families of generalized Cartan matrices with exponentially growing coranks for Kac-Moody algebras, with explicit spectra computed via adjacency eigenvalue multiplicity.

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  • On a new class of high-corank Kac-Moody algebras math.RA · 2026-07-01 · unverdicted · none · ref 14 · internal anchor

    Recursive multigraph-based constructions produce families of generalized Cartan matrices with exponentially growing coranks for Kac-Moody algebras, with explicit spectra computed via adjacency eigenvalue multiplicity.