Understanding diboson anomalies
Abstract
We conduct a model-independent effective theory analysis of hypercharged fields with various spin structures towards understanding the diboson excess found in LHC run I, as well as possible future anomalies involving and modes. Within the assumption of no additional physics beyond the standard model up to the scale of the possible diboson resonance, we show that a hypercharged scalar and a spin 2 particle do not have tree-level and decay channels up to dimension 5 operators, and cannot therefore account for the anomaly, whereas a hypercharged vector is a viable candidate provided we also introduce a in order to satisfy electroweak precision constraints. We calculate bounds on the mass consistent with the Atlas/CMS diboson signals as well as electroweak precision data, taking into account both LHC run I and II data.
Keywords
Cite
@article{arxiv.1511.02244,
title = {Understanding diboson anomalies},
author = {Aqil Sajjad},
journal= {arXiv preprint arXiv:1511.02244},
year = {2016}
}
Comments
19 pages, 3 figures, updated in light of LHC run II results. To appear in Physical Review D