Duality twists on a group manifold

Aybike Çatal-Özer

doi:10.1088/1126-6708/2006/10/072

Duality twists on a group manifold

Aybike Çatal-Özer^*

^*Corresponding author for this work

Trinity College Dublin

Research output: Contribution to journal › Review article › peer-review

7 Citations (Scopus)

Abstract

We study duality-twisted dimensional reductions on a group manifold G, where the twist is in a group G̃ and examine the conditions for consistency. We find that if the duality twist is introduced through a group element g̃ in G̃, then the flat G̃-connection A = g̃^-1dg̃ must have constant components M_n with respect to the basis 1-forms on G, so that the dependence on the internal coordinates cancels out in the lower dimensional theory. This condition can be satisfied if and only if M_n forms a representation of the Lie algebra of G, which then ensures that the lower dimensional gauge algebra closes. We find the form of this gauge algebra and compare it to that arising from flux compactifications on twisted tori. As an example of our construction, we find a new five dimensional gauged, massive supergravity theory by dimensionally reducing the eight dimensional Type II supergravity on a three dimensional unimodular, non-semi-simple, non-abelian group manifold with an SL(3,ℝ) twist.

Original language	English
Article number	072
Journal	Journal of High Energy Physics
Volume	2006
Issue number	10
DOIs	https://doi.org/10.1088/1126-6708/2006/10/072
Publication status	Published - 1 Oct 2006
Externally published	Yes

Keywords

Flux compactifications
String Duality
Supergravity Models

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10.1088/1126-6708/2006/10/072

Cite this

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title = "Duality twists on a group manifold",

abstract = "We study duality-twisted dimensional reductions on a group manifold G, where the twist is in a group {\~G} and examine the conditions for consistency. We find that if the duality twist is introduced through a group element {\~g} in {\~G}, then the flat {\~G}-connection A = {\~g}-1d{\~g} must have constant components Mn with respect to the basis 1-forms on G, so that the dependence on the internal coordinates cancels out in the lower dimensional theory. This condition can be satisfied if and only if Mn forms a representation of the Lie algebra of G, which then ensures that the lower dimensional gauge algebra closes. We find the form of this gauge algebra and compare it to that arising from flux compactifications on twisted tori. As an example of our construction, we find a new five dimensional gauged, massive supergravity theory by dimensionally reducing the eight dimensional Type II supergravity on a three dimensional unimodular, non-semi-simple, non-abelian group manifold with an SL(3,ℝ) twist.",

keywords = "Flux compactifications, String Duality, Supergravity Models",

author = "Aybike {\c C}atal-{\"O}zer",

year = "2006",

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N2 - We study duality-twisted dimensional reductions on a group manifold G, where the twist is in a group G̃ and examine the conditions for consistency. We find that if the duality twist is introduced through a group element g̃ in G̃, then the flat G̃-connection A = g̃-1dg̃ must have constant components Mn with respect to the basis 1-forms on G, so that the dependence on the internal coordinates cancels out in the lower dimensional theory. This condition can be satisfied if and only if Mn forms a representation of the Lie algebra of G, which then ensures that the lower dimensional gauge algebra closes. We find the form of this gauge algebra and compare it to that arising from flux compactifications on twisted tori. As an example of our construction, we find a new five dimensional gauged, massive supergravity theory by dimensionally reducing the eight dimensional Type II supergravity on a three dimensional unimodular, non-semi-simple, non-abelian group manifold with an SL(3,ℝ) twist.

AB - We study duality-twisted dimensional reductions on a group manifold G, where the twist is in a group G̃ and examine the conditions for consistency. We find that if the duality twist is introduced through a group element g̃ in G̃, then the flat G̃-connection A = g̃-1dg̃ must have constant components Mn with respect to the basis 1-forms on G, so that the dependence on the internal coordinates cancels out in the lower dimensional theory. This condition can be satisfied if and only if Mn forms a representation of the Lie algebra of G, which then ensures that the lower dimensional gauge algebra closes. We find the form of this gauge algebra and compare it to that arising from flux compactifications on twisted tori. As an example of our construction, we find a new five dimensional gauged, massive supergravity theory by dimensionally reducing the eight dimensional Type II supergravity on a three dimensional unimodular, non-semi-simple, non-abelian group manifold with an SL(3,ℝ) twist.

KW - Flux compactifications

KW - String Duality

KW - Supergravity Models

UR - https://www.scopus.com/pages/publications/33846179044

U2 - 10.1088/1126-6708/2006/10/072

DO - 10.1088/1126-6708/2006/10/072

M3 - Review article

AN - SCOPUS:33846179044

SN - 1029-8479

VL - 2006

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 10

M1 - 072

ER -

Duality twists on a group manifold

Abstract

Keywords

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