Rare Kaon Decay to Missing Energy: Implications of the NA62 Result for a   $Z^\prime$ Model

T\'essio B. de Melo; Sergey Kovalenko; Farinaldo S. Queiroz; C.; Siqueira; Yoxara S. Villamizar

arXiv:2102.06262·hep-ph·June 9, 2021

Rare Kaon Decay to Missing Energy: Implications of the NA62 Result for a $Z^\prime$ Model

T\'essio B. de Melo, Sergey Kovalenko, Farinaldo S. Queiroz, C., Siqueira, Yoxara S. Villamizar

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TL;DR

This paper interprets the recent NA62 measurement of the rare kaon decay $K^+ ightarrow \

Contribution

It introduces a specific $Z^\'$ model to explain the NA62 results and discusses implications for related decays and collider experiments.

Findings

01

NA62 measurement constrains $Z^\'$ models

02

Correlated $K_L ightarrow \

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Implications for collider searches and future experiments.

Abstract

Meson decays offer a good opportunity to probe new physics. The rare kaon decay $K^{+} \to π^{+} ν \overset{ν}{ˉ}$ is one of the cleanest of them and, for this reason, is rather sensitive to new physics, in particular, vector mediators. NA62 collaboration, running a fixed-target experiment at CERN, recently reported an unprecedented sensitivity to this decay, namely a branching fraction of $B R (K^{+} \to π^{+} ν \overset{ν}{ˉ}) = (1 1_{- 3.5}^{+ 4.0}) \times 1 0^{- 11}$ at 68\% C.L. Vector mediators that couple to neutrinos may yield a sizeable contribution to this decay. Motivated by the new measurement, we interpret this result in the context of a concrete $Z^{'}$ model, and put our findings into perspective with the correlated $K_{L} \to π^{0} ν \overset{ν}{ˉ}$ decay measured by KOTO collaboration, current, and future colliders, namely the High-Luminosity and High-Energy LHC.

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