Shedding light on Dark Sectors with high-energy muons at the NA64 experiment at the CERN SPS

arXiv - PHYS - High Energy Physics - Experiment Pub Date : 2024-09-16 DOI:arxiv-2409.10128

Yu. M. Andreev, D. Banerjee, B. Banto Oberhauser, J. Bernhard, P. Bisio, N. Charitonidis, P. Crivelli, E. Depero, A. V. Dermenev, S. V. Donskov, R. R. Dusaev, T. Enik, V. N. Frolov, A. Gardikiotis, S. V. Gertsenberger, S. Girod, S. N. Gninenko, M. Hösgen, R. Joosten, V. A. Kachanov, Y. Kambar, A. E. Karneyeu, E. A. Kasianova, G. Kekelidze, B. Ketzer, D. V. Kirpichnikov, M. M. Kirsanov, V. N. Kolosov, V. A. Kramarenko, L. V. Kravchuk, N. V. Krasnikov, S. V. Kuleshov, V. E. Lyubovitskij, V. Lysan, V. A. Matveev, R. Mena Fredes, R. G. Mena Yanssen, L. Molina Bueno, M. Mongillo, D. V. Peshekhonov, V. A. Polyakov, B. Radics, K. M. Salamatin, V. D. Samoylenko, D. A. Shchukin, O. Soto, H. Sieber, V. O. Tikhomirov, I. V. Tlisova, A. N. Toropin, M. Tuzi, B. M. Veit, P. V. Volkov, V. Yu. Volkov, I. V. Voronchikhin, J. Zamora-Saá, A. S. Zhevlakov

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Abstract

A search for Dark Sectors is performed using the unique M2 beam line at the CERN Super Proton Synchrotron. New particles ($X$) could be produced in the bremsstrahlung-like reaction of high energy 160 GeV muons impinging on an active target, $\mu N\rightarrow\mu NX$, followed by their decays, $X\rightarrow\text{invisible}$. The experimental signature would be a scattered single muon from the target, with about less than half of its initial energy and no activity in the sub-detectors located downstream the interaction point. The full sample of the 2022 run is analyzed through the missing energy/momentum channel, with a total statistics of $(1.98\pm0.02)\times10^{10}$ muons on target. We demonstrate that various muon-philic scenarios involving different types of mediators, such as scalar or vector particles, can be probed simultaneously with such a technique. For the vector-case, besides a $L_\mu-L_\tau$ $Z'$ vector boson, we also consider an invisibly decaying dark photon ($A'\rightarrow\text{invisible}$). This search is complementary to NA64 running with electrons and positrons, thus, opening the possibility to expand the exploration of the thermal light dark matter parameter space by combining the results obtained with the three beams.

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在欧洲核子研究中心空间站的 NA64 实验中利用高能μ介子揭示暗黑扇区

利用欧洲核子研究中心超级质子同步加速器独特的M2光束线对暗部进行了搜索。新粒子（$X$）可能是在160 GeV高能μ介子撞击有源靶的类似轫致辐射的反应中产生的，随后它们发生衰变，$X\rightarrow\text{invisible}$ 。实验特征将是来自目标的散射单个μ介子，其初始能量大约不到一半，并且在位于相互作用点下游的子探测器中没有活动。我们证明，涉及不同类型介质（如标量或矢量粒子）的各种μ介子亲和性情况都可以用这种技术同时探测到。在矢量情况下，除了$L_\mu-L_\tau$ $Z'$矢量玻色子之外，我们还考虑了隐形衰变暗光子（$A'\rightarrow\text{invisible}$）。这种搜索与用电子和正电子运行的NA64是互补的，因此，通过结合用三种光束获得的结果，为扩大对热光暗物质参数空间的探索提供了可能性。

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arXiv - PHYS - High Energy Physics - Experiment

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