In this letter, we study collider phenomenology in the supersymmetric Standard Model with a certain type of non-universal gaugino masses at the gauge coupling unification scale, motivated by the little hierarchy problem. In this scenario, especially the wino mass is relatively large compared to the gluino mass at the unification scale, and the heavy wino can relax the fine-tuning of the higgsino mass parameter, so-called μ -parameter. Besides, it will enhance the lightest Higgs boson mass due to the relatively large left-right mixing of top squarks through the renormalization group (RG) effect. Then 125 GeV Higgs boson could be accomplished, even if the top squarks are lighter than 1 TeV and the μ parameter is within a few hundreds GeV. The right-handed top squark tends to be lighter than the other sfermions due to the RG runnings, then we focus on the top squark search at the LHC. Since the top squark is almost right-handed and the higgsinos are nearly degenerate, 2 b + E T miss channel is the most sensitive to this scenario. We figure out current and expected experimental bounds on the lightest top squark mass and model parameters at the gauge coupling unification scale.
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机译:在这封信中,我们研究了超对称标准模型中对撞机的现象学,该模型具有某种类型的非普遍性gaugino质量,并且受到小层次问题的推动,在规范耦合统一尺度上。在这种情况下,特别是与统一尺度上的葡糖醇质量相比,欧诺质量相对较大,而重的欧诺可以放松希格诺质量参数(所谓的μ参数)的微调。此外,由于通过重归一化(RG)效应使顶角的左右混合相对较大,因此它将增加最轻的希格斯玻色子质量。这样就可以实现125 GeV的希格斯玻色子,即使最上面的夸克比1 TeV轻并且μ参数在几百GeV以内。由于RG的运行,惯用右手的顶级小矮人往往比其他的小些,因此我们将重点放在大型强子对撞机的顶级小矮人搜索中。由于顶部的小腿几乎是惯用右手的,而希格诺斯则几乎是简陋的,因此2 b + E T miss通道对这种情况最敏感。我们在量规耦合统一尺度上计算出了最轻的顶级船体质量和模型参数的当前和预期实验范围。
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