Abstract
We study the graviton phenomenology of TeV little string theory by exploiting its holographic gravity dual five-dimensional theory. This dual corresponds to a linear dilaton background with a large bulk that constrains the standard model fields on the boundary of space. The linear dilaton geometry produces a unique Kaluza-Klein graviton spectrum that exhibits a ~TeV mass gap followed by a near continuum of narrow resonances that are separated from each other by only ~30 GeV. Resonant production of these particles at the LHC is the signature of this framework that distinguishes it from large extra dimensions, where the Kaluza-Klein states are almost a continuum with no mass gap, and warped models, where the states are separated by a TeV.
Highlights
String theory is the leading candidate for a theory of quantum gravity
We study the graviton phenomenology of TeV Little String Theory by exploiting its holographic gravity dual five-dimensional theory
Resonant production of these particles at the LHC is the signature of this framework that distinguishes it from large extra dimensions where the KK states are almost a continuum with no mass gap, and warped models where the states are separated by a TeV
Summary
String theory is the leading candidate for a theory of quantum gravity. Its mathematical consistency dictates the existence of extra dimensions. This dual corresponds to a linear dilaton background with a large bulk that constrains the Standard Model fields on the boundary of space.
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