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| CMS-EXO-21-003 ; CERN-EP-2022-105 | ||
| Probing heavy Majorana neutrinos and the Weinberg operator through vector boson fusion processes in proton-proton collisions at $\sqrt{s} = $ 13 TeV | ||
| CMS Collaboration | ||
| 17 June 2022 | ||
| Phys. Rev. Lett. 131 (2023) 011803 | ||
| Abstract: The first search exploiting the vector boson fusion process to probe heavy Majorana neutrinos and the Weinberg operator at the LHC is presented. The search is performed in the same-sign dimuon final state using a proton-proton collision data set recorded at $\sqrt{s} = $ 13 TeV, collected with the CMS detector and corresponding to a total integrated luminosity of 138 fb$^{-1}$. The results are found to agree with the predictions of the standard model. For heavy Majorana neutrinos, constraints on the squared mixing element between the muon and the heavy neutrino are derived in the heavy neutrino mass range 50 GeV-25 TeV; for masses above 650 GeV these are the most stringent constraints from searches at the LHC to date. A first test of the Weinberg operator at colliders provides an observed upper limit at 95% confidence level on the effective $\mu\mu$ Majorana neutrino mass of 10.8 GeV. | ||
| Links: e-print arXiv:2206.08956 [hep-ex] (PDF) ; CDS record ; inSPIRE record ; HepData record ; Physics Briefing ; CADI line (restricted) ; | ||
| Figures | |
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Figure 1:
Example Feynman diagrams of VBF processes with heavy Majorana neutrino production (left) and processes mediated by the Weinberg operator (right) at the LHC. |
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Figure 1-a:
Example Feynman diagram of VBF processes with heavy Majorana neutrino production at the LHC. |
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Figure 1-b:
Example Feynman diagram of processes mediated by the Weinberg operator at the LHC. |
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Figure 2:
The $ {H_{\mathrm {T}}} / {p_{\mathrm {T}}} ^{\mu _{1}}$ distribution in the SRs and CRs. The horizontal axis indicates the bin width. The predicted yields of the backgrounds are shown with their best fit normalizations from the simultaneous fits for the background-only hypothesis. The lines indicate the scaled expected distributions of the heavy Majorana neutrino process with $m_{\mathrm {N}} = $ 750 GeV (solid red), 1.5 TeV (dashed red), 5.0 TeV (dotted red), and of the Weinberg operator process (dash-dotted green). The heavy Majorana neutrino processes are characterized by the azimuthal separation variable $ {\Delta \phi _{\ell \ell}} $, while the Weinberg operator process features in low missing transverse momentum. |
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Figure 3:
Upper limits on the heavy neutrino mixing element $ {| V_{\mu \mathrm {N}} |}^{2}$ at the 95% CL as a function of the heavy neutrino mass $m_{\mathrm {N}} $. The black dashed curve shows the expected upper limit, with the one and two standard deviation bands are indicated in lime green and light yellow, respectively. The solid black curve is the observed upper limit. The red dashed curve indicates observed upper limits from Ref. [17], while the blue dashed curve shows the observed upper limits from Ref. [20]. The result from Ref. [18] is not shown since it focuses on low $m_{\mathrm {N}} $. Starting from $m_{\mathrm {N}} $ around 650 GeV, the analysis presented in this Letter improves upon the upper limits from those references. |
| Tables | |
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Table 1:
Signal region and WZ control region definitions. The signal region is binned differently for the heavy Majorana neutrino and Weinberg operator analyses. A b-tagged CR is defined by using the same selection as for the SR, however requiring the presence of a b-tagged jet. A WZb CR is defined by requiring the same selection as for the WZ CR, but requiring at least one b-tagged jet. |
| Summary |
| In summary, this Letter presents the first search for Majorana neutrinos at several TeV and a first probe of the Weinberg operator at the LHC. These achievements were made possible by considering for the first time vector boson fusion processes resulting in a same-sign dimuon final state. The results are consistent with the predictions from the standard model. For heavy Majorana neutrinos, upper limits on the mixing element $|{V_{\mu \mathrm{N}} }|^{2}$ are set for the mass range 50 GeV $ < m_{\mathrm{N}} < $ 25 TeV and the best sensitivity is reached for $m_{\mathrm{N}} \gtrsim $ 650 GeV. The phase space explored exceeds the center-of-mass energy of the LHC, improving previous limits for direct production of Majorana neutrinos. The highest mass for which $|{V_{\mu \mathrm{N}} }|^{2}=$ 1 is excluded is around 23 TeV. The observed (expected) 95% confidence level upper limit on the effective $\mu\mu$ Majorana mass associated with the Weinberg operator is 10.8 (12.8) GeV, exceeding the current best limit from high intensity Kaon experiments. |
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