Electron and Muon Anomalous Magnetic Moment in the Z3-NMSSM

Abstract

Inspired by the recent measurements of the muon and electron anomalous magnetic moments, the rapid progress of the LHC search for supersymmetry, and the significantly improved sensitivities of dark matter direct detection experiments, we studied the supersymmetric contribution to the electron g-2, ae SUSY, in the Next-to-Minimal Supersymmetric Standard Model with a discrete Z3 symmetry. We concluded that ae SUSY was mainly correlated with aμ SUSY by the formula ae SUSY/me2 aμ SUSY/mμ2, and significant violations of this correlation might occur only in rare cases. As a result, ae SUSY was typically around 5 × 10-14 when aμ SUSY 2.5 × 10-9. We also concluded that the dark matter direct detection and LHC experiments played crucial roles in determining the maximum reach of ae SUSY. Concretely, ae SUSY might be around 3 × 10-13 in the optimum cases if one used the XENON-1T experiment to limit the supersymmetry parameter space. This prediction, however, was reduced to 1.5 × 10-13 after implementing the LZ restrictions and 1.0 × 10-13 when further considering the LHC restrictions.