Investigation of the scalar unparticle and anomalous couplings at muon colliders in final states with multiple photons in the Randall–Sundrum model

IF 1.4 4区物理与天体物理 Q3 PHYSICS, NUCLEAR International Journal of Modern Physics a Pub Date : 2024-04-13 DOI:10.1142/s0217751x24500295

Bui Thi Ha Giang, Dang Van Soa, Le Mai Dung

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Abstract

The influence of the scalar unparticle and anomalous couplings at muon colliders in final states with multiple photons in the Randall–Sundrum model is evaluated in detail. The results indicate that with fixed collision energies, the total cross-sections for the production of multiple photons depend strongly on the polarization of the muon beams, the parameters of unparticle physics (the scaling dimension $d_{U}$ , operator $𝒪_{U}$ , the energy scale $Λ_{U}$ ) and also the strength of anomalous couplings. Numerical evaluation shows that the cross-sections for the production of four photons in finale states with the contribution of scalar anomalous couplings are much larger than that of the unparticle under the same conditions. In the Higgs–radion mixing, the cross-sections achieve the maximum value at the radion-dominated state, $m_{ϕ} = 125$ GeV, in which the cross-section is much enhanced and can be measurable in current experiments.

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兰德尔-桑德鲁姆模型中μ介子对撞机上有多个光子的最终态的标量非粒子和反常耦合的研究

详细评估了μ介子对撞机中的非粒子标量和反常耦合对兰德尔-桑德鲁姆模型中多光子最终态的影响。结果表明，在对撞能量固定的情况下，多光子产生的总截面很大程度上取决于μ介子束的偏振、非粒子物理参数（标度 dU、算子 ᵊU、能级ΛU）以及反常耦合的强度。数值评估表明，在相同条件下，有标量反常耦合贡献的压倒态产生四个光子的截面要比非粒子的截面大得多。在希格斯-放射性混合中，横截面在以放射性为主的状态（mϕ=125GeV）达到最大值，在该状态下横截面大大增强，可以在当前的实验中测量到。

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来源期刊

International Journal of Modern Physics a 物理-物理：核物理

CiteScore

3.00

自引率

12.50%

发文量

283

审稿时长

3 months

期刊介绍： Started in 1986, IJMPA has gained international repute as a high-quality scientific journal. It consists of important review articles and original papers covering the latest research developments in Particles and Fields, and selected topics intersecting with Gravitation and Cosmology. The journal also features articles of long-standing value and importance which can be vital to research into new unexplored areas.