大型强子对撞机数据中的新 700GeV 标量？

Q2 Physics and Astronomy

Letters in High Energy Physics Pub Date : 2024-04-04 DOI:10.31526/lhep.2024.515

M. Consoli, G. Rupp

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引用次数: 0

摘要

作为微扰计算所产生的电弱真空陨变性的替代方案，我们可以考虑一种非微扰有效势，这种势与标准模型开始时一样，仅限于纯$\Phi^4$扇区，但与已知的分析和数值研究相一致。在这种方法中，电弱真空现在是能量最低的状态，除了质量为 $m_h=$ 125 GeV 的共振是由势能在其最小值时的二次方形状所定义的之外，希格斯场还应该表现出第二个共振，其质量为 $(M_H)^{\rm Theor}=690\,(30)$ GeV，与决定势能深度的零点能相关联。尽管它的质量很大，但这一共振将以与 125 GeV 的低质量态相同的典型强度耦合到纵向 $W$s，并代表一种相对较窄的共振，主要是在大型强子对撞机上通过胶子-胶子融合产生的。在这封信中，我们回顾了大型强子对撞机的数据，这些数据表明了一种质量为$(M_H)^{rm EXP} 的新共振。\sim 682\,(10)$ GeV，其统计意义远远不可忽略。

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A New 700GeV Scalar in the LHC Data?

As an alternative to the metastability of the electroweak vacuum, resulting from perturbative calculations, one can consider a non-perturbative effective potential which, as at the beginning of the Standard Model, is restricted to the pure $\Phi^4$ sector yet consistent with the known analytical and numerical studies. In this approach, where the electroweak vacuum is now the lowest-energy state, besides the resonance of mass $m_h=$ 125 GeV defined by the quadratic shape of the potential at its minimum, the Higgs field should exhibit a second resonance with mass $(M_H)^{\rm Theor}=690\,(30)$ GeV associated with the zero-point energy determining the potential depth. In spite of its large mass, this resonance would couple to longitudinal $W$s with the same typical strength as the low-mass state at 125 GeV and represent a relatively narrow resonance, mainly produced at LHC by gluon-gluon fusion. In this Letter, we review LHC data suggesting a new resonance of mass $(M_H)^{\rm EXP} \sim 682\,(10)$ GeV, with a statistical significance that is far from negligible.

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来源期刊

Letters in High Energy Physics Physics and Astronomy-Nuclear and High Energy Physics

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

12 weeks