Constraining ADD black holes at the LHC with s = 14 TeV

Abstract

We explore microscopic black holes at the Large Hadron Collider (LHC) in the context of the ADD model for the centre-of-mass energy s = 14~TeV at an integrated luminosity of 349.4~fb-1 and provide constraints on the black hole mass, MB by taking into account the effects of loss during the formation process of black holes through the parameter ζ. Our analysis reveals that for ζ= 0, black holes with MB ≤ 11.83~TeV are disfavored in the case of three extra dimensions (D), for the reduced Planck scale (ΛD) of about a TeV. The corresponding values for ΛD = 9~TeV turned out to be about 10.33~TeV. A significant reduction in the aforementioned limits is observed while the loss gets higher, e.g. for ζ= 0.35, MB reduces to 7.65 (6.82)~TeV at ΛD = 1 (9)~TeV. These limits change to 12.03 ~(10.88)~TeV and 7.80~ (7.03)~TeV respectively for ζ= 0~(0.35) for ΛD = 1 (9)~TeV at 95\% C.L. in case D is raised to seven.