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Face of Malin Sjödahl. Photo.

Malin Sjödahl

Docent, researcher

Face of Malin Sjödahl. Photo.

Classical and non-classical ADD-phenomenology with high-E-perpendicular to jet observables at collider experiments


  • Leif Lönnblad
  • Malin Sjödahl

Summary, in English

We use the results from a recent investigation of hard parton-parton gravitational scattering in the ADD scenario to make semi-quantitative predictions for a few standard high-E-perpendicular to jet observables at the LHC. By implementing these gravitational scattering results in the PYTHIA event generator and combining it with the CHARYBDIS generator for black holes, we investigate the effects of large extra dimensions and find that, depending on the width of the brane, the relative importance of gravitational scattering and black hole production may change significantly. For the cases where gravitational scatterings are important we discuss how to distinguish gravitational scattering from standard QCD partonic scatterings. In particular we point out that the universal colorlessness of elastic gravitational scattering implies fewer particles between the hard jets, and that this can be used in order to distinguish an increased jet activity induced by gravitational scattering from an increased jet activity induced by eg. super-symmetric extensions where the interaction is colorful.


  • Theoretical Particle Physics

Publishing year





Journal of High Energy Physics



Document type

Journal article




  • Subatomic Physics


  • hadronic colliders
  • large extra dimensions
  • black holes
  • jets




  • ISSN: 1029-8479