O(d+1,d+1) enhanced double field theory

Hohm, Olaf; Musaev, Edvard T.; Samtleben, Henning

doi:10.1007/JHEP10(2017)086

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O(d+1,d+1) enhanced double field theory

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Musaev, Edvard T.
Quantum Gravity & Unified Theories, AEI-Golm, MPI for Gravitational Physics, Max Planck Society;

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1707.06693.pdf
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Citation

Hohm, O., Musaev, E. T., & Samtleben, H. (2017). O(d+1,d+1) enhanced double field theory. Journal of high energy physics: JHEP, 2017(10): 086. doi:10.1007/JHEP10(2017)086.

Cite as: https://hdl.handle.net/11858/00-001M-0000-002D-DB4D-A

Abstract

Double field theory yields a formulation of the low-energy effective action of bosonic string theory and half-maximal supergravities that is covariant under the T-duality group O$(d,d)$ emerging on a torus $T^d$. Upon reduction to three spacetime dimensions and dualisation of vector fields into scalars, the symmetry group is enhanced to O$(d+1,d+1)$. We construct an enhanced double field theory with internal coordinates in the adjoint representation of O$(d+1,d+1)$. Its section constraints admit two inequivalent solutions, encoding in particular the embedding of $D=6$ chiral and non-chiral theories, respectively. As an application we define consistent generalized Scherk-Schwarz reductions using a novel notion of generalized parallelization. This allows us to prove the consistency of the truncations of $D=6$, ${\cal N}=(1,1)$ and $D=6$, ${\cal N}=(2,0)$ supergravity on AdS$_3\times \mathbb{S}^3$.