Implications of the CDF t t Forward-Backward Asymmetry for Hard Top Physics

Abstract

The CDF collaboration has recently reported a large deviation from the standard model of the t t forward-backward asymmetry in the high invariant mass region. We interpret this measurement as coming from new physics at a heavy scale Lambda, and perform a model-independent analysis up to O(1/Lambda4). A simple formalism to test and constrain models of new physics is provided. We find that a large asymmetry cannot be accommodated by heavy new physics that does not interfere with the standard model. We show that a smoking gun test for the heavy new physics hypothesis is a significant deviation from the standard model prediction for the t t differential cross section at large invariant mass. At Mt t>1 TeV the cross section is predicted to be at least twice that of the SM at the Tevatron, and for Mt t>1.5 TeV at least three times larger than the SM at the LHC.