Interference effects in resonant di-Higgs production at the LHC in the Higgs singlet extension

Finn Feuerstake, Elina Fuchs, Tania Robens, Daniel Winterbottom
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Abstract

Interference effects are well founded from the quantum mechanical viewpoint and in principle cannot be ignored in realistic studies of New Physics scenarios. In this work, we investigate the size of interference effects between resonant and non-resonant contributions to di-Higgs production in the singlet extension of the Standard Model where the additional heavy scalar provides a resonant channel of on-shell and off-shell di-Higgs production. We find these interference contributions to have a non-negligible effect on the cross-sections and differential distributions. In order to allow for an computationally efficient treatment of these effects via reweighting, we introduce a new tool utilizing a matrix-element reweighting method: HHReweighter. In addition to the broadly used invariant di-Higgs mass $m_{hh}$, we analyze the sensitivity of other kinematic variables to the interference term and propose to also use differential distributions in the Higgs transverse momentum $p_T^h$. Furthermore, we provide updates on the latest experimental and theoretical limits on the parameter space of the real singlet extension of the Standard Model Higgs sector.
在希格斯单子扩展中大型强子对撞机共振二希格斯粒子产生的干涉效应
从量子力学的角度看,干涉效应是有根据的,而且在新物理情景的现实研究中原则上是不能忽视的。在这项工作中,我们研究了在标准模型的小卫星扩展中,共振和非共振贡献对二希格斯粒子产生的干涉效应的大小,在标准模型中,额外的重标量提供了壳上和壳外二希格斯粒子产生的共振通道。我们发现这些干涉贡献对截面和差分分布有着不可忽略的影响。为了在计算上有效地通过重新加权处理这些影响,我们引入了一种利用矩阵元素重新加权方法的新工具:HHReweighter。除了广泛使用的不变二希格斯质量$m_{hhh}$之外,我们还分析了其他运动学变量对干涉决定的敏感性,并建议在希格斯横动量$p_T^h$中也使用差分分布。此外,我们还提供了关于标准模型希格斯扇区的实单子扩展参数空间的最新实验和理论限制。
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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