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Instanton Corrections to the Universal Hypermultiplet and Automorphic Forms on SU(2,1)

Daniel Persson (Institutionen för fundamental fysik, Matematisk fysik) ; Bengt E. W. Nilsson (Institutionen för fundamental fysik, Matematisk fysik) ; Ling Bao (Institutionen för fundamental fysik, Matematisk fysik) ; Axel Kleinschmidt ; Boris Pioline
Preprint: arXiv:0909.4299 [hep-th] p. 55 pages. (2009)
[Artikel, övrig vetenskaplig]

The hypermultiplet moduli space in Type IIA string theory compactified on a rigid Calabi-Yau threefold X, corresponding to the "universal hypermultiplet", is described at tree-level by the symmetric space SU(2,1)/(SU(2) x U(1)). To determine the quantum corrections to this metric, we posit that a discrete subgroup of the continuous tree-level isometry group SU(2,1), namely the Picard modular group SU(2,1;Z[i]), must remain unbroken in the exact metric -- including all perturbative and non perturbative quantum corrections. This assumption is expected to be valid when X admits complex multiplication by Z[i]. Based on this hypothesis, we construct an SU(2,1;Z[i])-invariant, non-holomorphic Eisenstein series, and tentatively propose that this Eisenstein series provides the exact contact potential on the twistor space over the universal hypermultiplet moduli space. We analyze its non-Abelian Fourier expansion, and show that the Abelian and non-Abelian Fourier coefficients take the required form for instanton corrections due to Euclidean D2-branes wrapping special Lagrangian submanifolds, and to Euclidean NS5-branes wrapping the entire Calabi-Yau threefold, respectively. While this tentative proposal fails to reproduce the correct one-loop correction, the consistency of the Fourier expansion with physics expectations provides strong support for the utility of the Picard modular group in constraining the quantum moduli space.



Denna post skapades 2009-12-18. Senast ändrad 2015-12-17.
CPL Pubid: 104356

 

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Institutioner (Chalmers)

Institutionen för fundamental fysik, Matematisk fysik (2005-2013)

Ämnesområden

Elementarpartikelfysik

Chalmers infrastruktur