Probing New Physics in Higgs Couplings to Fermions using an Angular Analysis
arXiv:1407.0695 · doi:10.1016/j.physletb.2014.07.065
Abstract
The standard-model Higgs boson couples to quarks through a parity-even scalar $Hq{\bar q}$ coupling. We show that the rare Higgs decay $H\to VZ$, where $V$ is a vector quarkonium state such as $J/Ï$ ($c{\bar c}$) or $Î¥(1S)$ ($b{\bar b}$), can be used to search for the presence of a parity-odd pseudoscalar $Hq{\bar q}$ coupling. Since both $V$ and $Z$ can decay to a pair of charged leptons, this presents an experimentally-clean channel that can be observed at the high-luminosity LHC or a future hadron collider. The P-even and P-odd $Hq{\bar q}$ couplings can be measured by analyzing the angular distribution of the final-state leptons.
15 pages, 2 figures, version published in Phys. Lett. B