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Explanation of the ATLAS Z-peaked excess by squark pair production in the NMSSM

Abstract

The ATLAS collaboration recently reported a 3Οƒ3\sigma excess in the leptonic-Z+jets+ETmissZ+jets+E_{T}^{miss} channel. We intend to interpret this excess by squark pair production in the Next-to-Minimal Supersymmetric Standard Model (NMSSM). The decay chain we employ is q~β†’qΟ‡~20β†’qΟ‡~10Z\tilde{q} \to q \tilde{\chi}_2^0 \to q \tilde{\chi}_1^0 Z, where Ο‡~10\tilde{\chi}_1^0 and Ο‡~20\tilde{\chi}_2^0 denote the lightest and the next-to-lightest neutralinos with singlino and bino as their dominant components respectively. Our simulations indicate that after considering the constraints from the ATLAS searches for jets+ETmissjets + E_{T}^{miss} signal the central value of the excess can be obtained for mq~≲1.2TeVm_{\tilde{q}} \lesssim 1.2 {\rm TeV}, and if the constraint from the CMS on-ZZ search is further considered, more than 10 signal events are still attainable for mq~≲750GeVm_{\tilde{q}} \lesssim 750 {\rm GeV}. Compared with the interpretation by gluino pair production, the squark explanation allows for a significantly wider range of mq~m_{\tilde{q}} as well as a less compressed SUSY mass spectrum. We also show that the squark explanation will be readily tested at the initial stage of the 14 TeV LHC.Comment: 19 pages, 4 figure

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    Last time updated on 05/06/2019