Digging Deeper for New Physics in the LHC Data
Abstract
In this paper we describe a novel, model-independent technique of "rectangular aggregations" for mining the LHC data for hints of new physics. A typical (CMS) search now has hundreds of signal regions, which can obscure potentially interesting anomalies. Applying our technique to the two CMS jets+MET SUSY searches, we identify a set of previously overlooked excesses. Among these, four excesses survive tests of inter- and intra-search compatibility, and two are especially interesting: they are largely overlapping between the jets+MET searches and are characterized by low jet multiplicity, zero -jets, and low MET and . We find that resonant color-triplet production decaying to a quark plus an invisible particle provides an excellent fit to these two excesses and all other data -- including the ATLAS jets+MET search, which actually sees a correlated excess. We discuss the additional constraints coming from dijet resonance searches, monojet searches and pair production. Based on these results, we believe the wide-spread view that the LHC data contains no interesting excesses is greatly exaggerated.
Keywords
Cite
@article{arxiv.1707.05783,
title = {Digging Deeper for New Physics in the LHC Data},
author = {Pouya Asadi and Matthew R. Buckley and Anthony DiFranzo and Angelo Monteux and David Shih},
journal= {arXiv preprint arXiv:1707.05783},
year = {2018}
}
Comments
31 pages + appendices, 14 figures, source code for recasted searches attached as auxiliary material