Higgs production and decay from TeV scale black holes at the LHC

We perform a detailed study of the Higgs production and decay, when Higgs is emitted from the black holes produced in proton-proton collisions at the Large Hadron Collider. We show that black hole production can significantly enhance the signal for the Higgs search at the LHC. We evaluate rapidity distribution of diphotons and transverse momentum distribution of bottom quarks, photons, tau leptons, top quarks, and W bosons from Higgs decay, when Higgs is emitted from the black hole and also in the case when these particles are produced directly from the black hole evaporation. We compare our results with the standard model backgrounds. We find that Higgs production from black holes is dominant over standard model production for p(T)(H) > 100 GeV, when M-P = 1 TeV. Diphotons from Higgs, when Higgs is produced from evaporation of black holes, are dominant over the standard model prediction, for diphoton rapidity vertical bar y(gamma gamma)vertical bar <= 1, while bottom quarks are dominant over QCD background for large bottom quark transverse momentum, p(T)(b) > 300 GeV, when M-P = 1 TeV. We show that measurements of the photon and bottom quark transverse momentum distribution can provide valuable information about the value of the fundamental Planck scale. We also propose a new signal for black hole production at the LHC, an onset of increasing transverse momentum distribution of bottom quarks with large transverse momentum.