2004
DOI: 10.1016/j.nuclphysb.2003.12.015
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Towards a naturally small cosmological constant from branes in 6D supergravity

Abstract: We investigate the possibility of self-tuning of the effective 4D cosmological constant in 6D supergravity, to see whether it could naturally be of order 1/r 4 when compactified on two dimensions having Kaluza-Klein masses of order 1/r. In the models we examine supersymmetry is broken by the presence of nonsupersymmetric 3-branes (on one of which we live). If r were sub-millimeter in size, such a cosmological constant could describe the recently-discovered dark energy. A successful self-tuning mechanism would … Show more

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Cited by 299 publications
(564 citation statements)
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“…This choice corresponds to un-warped solutions that were considered in ref. [9] and (with multiple branes) in ref. [16].…”
Section: Appendix: Derivation Of the General Warped Solutionmentioning
confidence: 99%
See 1 more Smart Citation
“…This choice corresponds to un-warped solutions that were considered in ref. [9] and (with multiple branes) in ref. [16].…”
Section: Appendix: Derivation Of the General Warped Solutionmentioning
confidence: 99%
“…For compact dimensions, the gauge flux is quantized in the presence of charged particles [5,9,10,13] as…”
Section: Flux Quantizationmentioning
confidence: 99%
“…It might be that such systems are related to -and find applications JHEP02 (2016)063 for -the SLED proposal pushed forward by Burgess and collaborators (see e.g. [32][33][34]), that makes use of the properties of codimension two object for addressing the cosmological constant problem. We leave these questions to further study.…”
Section: Anatomy Of the Vortexmentioning
confidence: 99%
“…This is an interesting configuration because of the following observation: since t 2 = √ τ 1 and t 1 = (τ 2 − 2τ 1 )/2 √ τ 1 , we can see that τ 2 ≫ τ 1 would imply that t 1 ≫ t 2 and we would effectively have a very anisotropic compactification with the 2-cycle much bigger than its dual 4-cycle. This could then lead to a realisation of the supersymmetric 2 large extra dimensions scenario [19,187], in which the extra dimension could be as large as a fraction of a millimetre. This would correspond to looking for solutions Ω = (1 + ǫ) V with ǫ → 0.…”
Section: Moduli Stabilisation Via String Loop Corrections 139mentioning
confidence: 99%