2003
DOI: 10.1088/1126-6708/2003/10/004
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BPS action and superpotential for heterotic string compactifications with fluxes

Abstract: We consider N = 1 compactifications to four dimensions of heterotic string theory in the presence of fluxes. We show that up to order O (α ′2 ) the associated action can be written as a sum of squares of BPS-like quantities. In this way we prove that the equations of motion are solved by backgrounds which fulfill the supersymmetry conditions and the Bianchi identities. We also argue for the expression of the related superpotential and discuss the radial modulus stabilization for a class of examples.

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Cited by 149 publications
(251 citation statements)
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“…The integrated fluxes can be described [51][52][53][54][55][56][57][58][59][60][61][62][63][64][65][66][67][68][69][70] as gaugings of the supergravity theory and, in this section, we derive the corresponding gauge algebra for a generic class of freely-acting (a)symmetric orbifolds. 1 In particular, we will not limit ourselves to orbifolds which are connected to symmetric ones by a chain of T-dualities, but rather consider quite generic cases which may lie in different conjugacy classes of the Tduality group, than the symmetric ones.…”
Section: Freely-acting Orbifolds and Gauged Supergravitymentioning
confidence: 99%
“…The integrated fluxes can be described [51][52][53][54][55][56][57][58][59][60][61][62][63][64][65][66][67][68][69][70] as gaugings of the supergravity theory and, in this section, we derive the corresponding gauge algebra for a generic class of freely-acting (a)symmetric orbifolds. 1 In particular, we will not limit ourselves to orbifolds which are connected to symmetric ones by a chain of T-dualities, but rather consider quite generic cases which may lie in different conjugacy classes of the Tduality group, than the symmetric ones.…”
Section: Freely-acting Orbifolds and Gauged Supergravitymentioning
confidence: 99%
“…As was discussed in [29], [34], one can minimize the superpotential (1.4) to determine the background torsional equation as:…”
Section: Background Before Geometric Transitionmentioning
confidence: 99%
“…The most generic superpotential for the type I theory is then [29], [34] Performing an S-duality to go from type I string to the heterotic string, the D5 branes become NS5 branes, the field H RR becomes H NS ≡ H and the compactification manifold remains non-Kähler. The superpotential therefore is [29], [34] W het = (H + idJ) ∧ Ω, (6.4) where H is the usual three-form of the heterotic theory satisfying dH = tr R∧R− What about the possibility of having a gluino condensate in the heterotic string as described in [73]?…”
Section: Field Theory and Geometric Transitions In Type I And Heterotmentioning
confidence: 99%
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“…The complex flux H (3) − ie 2φ d e −2φ J is required to be (2,1) and primitive. It has been argued that the (2,1) condition follows from an analogous superpotential [48,47,49], although this is more subtle than in the IIB case.…”
Section: More Recent Progressmentioning
confidence: 99%