Probing dimension-8 SMEFT operators through neutral meson mixing

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-16 DOI:arxiv-2409.10305

Yi LiaoSouth China Normal U., Xiao-Dong MaSouth China Normal U., Hao-Lin WangSouth China Normal U.

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Abstract

We investigate the impact of effective interactions of dimension-8 (dim-8) operators in the standard model effective field theory (SMEFT) on neutral meson mixing, focusing on the $K^0-\bar K^0$, $B_{d,s}-\bar B_{d,s}$, and $D^0-\bar D^0$ systems. Within the framework of the low energy effective field theory (LEFT), each system is governed by eight dim-6 operators, with four originating at tree level from dim-6 SMEFT operators and the other four from dim-8 SMEFT operators. Notably, in certain UV complete models those dim-8 operators instead of the dim-6 ones are generated at the leading order. Our analysis focuses on those dim-8 operators and includes their one-loop QCD renormalization group running effects. By leveraging the LEFT master formula we impose stringent constraints on the effective scales associated with these dim-8 operators. We find that neutral meson mixing can probe an effective scale up to 50 TeV for some operators, surpassing the constraints imposed on other dim-8 operators by other observables. Lastly, we present a UV complete model capable of generating dim-8 operators at the leading order, thus offering a unique perspective on the interplay between different operator dimensions in probing new physics phenomena.

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通过中性介子混合探测八维 SMEFT 算子

我们研究了标准模型有效场理论（SMEFT）中8维（dim-8）算子的有效相互作用对中性介子混杂的影响，重点是$K^0-\bar K^0$、$B_{d,s}-\bar B_{d,s}$和$D^0-\barD^0$系统。在低能有效场理论（LEFT）的框架内，每个系统都受八个dim-6算子的支配，其中四个算子来自树级的dim-6 SMEFT算子，另外四个来自dim-8 SMEFT算子。值得注意的是，在某些 UV 完全模型中，这些 dim-8 算子而不是 dim-6 算子是在前导阶产生的。我们的分析侧重于这些 dim-8 算子，并包括它们的一回路 QCD 重正化群运行效应。通过利用 LEFT 主公式，我们对与这些 dim-8 算子相关的有效尺度施加了弦约束。我们发现，中性介子混合可以探测到某些算子高达50 TeV的有效尺度，超过了其他观测指标对其他dim-8算子的约束。最后，我们提出了一个能够在前沿阶产生dim-8算子的紫外完整模型，从而为探测新物理现象中不同算子维度之间的相互作用提供了一个独特的视角。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - High Energy Physics - Phenomenology

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