Connecting multi-lepton anomalies at the LHC and in Astrophysics with MeerKAT/SKA

IF 4.2 3区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astroparticle Physics Pub Date : 2023-06-01 DOI:10.1016/j.astropartphys.2023.102821

Geoff Beck , Ralekete Temo , Elias Malwa , Mukesh Kumar , Bruce Mellado

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引用次数: 5

Abstract

Multi-lepton anomalies at the Large Hadron Collider (LHC) are reasonably well described by a two Higgs doublet model with an additional singlet scalar. Here we demonstrate that using this model, with parameters set by the LHC, we are also able to describe the excesses in gamma-ray flux from the galactic centre and the cosmic-ray spectra from AMS-02. This is achieved through Dark Matter (DM) annihilation via the singlet scalar. Of great interest is the flux of synchrotron emissions which results from annihilation of DM in Milky-Way satellites. We make predictions for MeerKAT/SKA observations of the nearby dwarf galaxy Reticulum II and we demonstrate the power of this instrument as a new frontier in indirect dark matter searches. Since the dark matter sector of the aforementioned two Higgs doublet model is unconstrained by current LHC data, we also demonstrate a synergy between particle and astrophysical searches in order to motivate further exploration of this promising model.

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将大型强子对撞机和天体物理学中的多轻子异常与MeerKAT/SKA联系起来

大型强子对撞机(LHC)的多轻子异常可以用一个附加单重态标量的双希格斯双重态模型很好地描述。在这里，我们证明了使用这个模型，加上LHC设定的参数，我们也能够描述来自银河系中心的伽马射线通量过剩和来自AMS-02的宇宙射线光谱。这是通过暗物质(DM)通过单线态标量湮灭实现的。我们非常感兴趣的是银河系卫星中DM湮灭所产生的同步加速器辐射通量。我们对MeerKAT/SKA对附近矮星系网星系II的观测进行了预测，并证明了该仪器作为间接暗物质搜索的新前沿的力量。由于上述两个希格斯双重态模型的暗物质部分不受当前大型强子对撞机数据的约束，我们也证明了粒子和天体物理搜索之间的协同作用，以激励对这个有前景的模型的进一步探索。

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来源期刊

Astroparticle Physics 地学天文-天文与天体物理

CiteScore

8.00

自引率

2.90%

发文量

审稿时长

79 days

期刊介绍： Astroparticle Physics publishes experimental and theoretical research papers in the interacting fields of Cosmic Ray Physics, Astronomy and Astrophysics, Cosmology and Particle Physics focusing on new developments in the following areas: High-energy cosmic-ray physics and astrophysics; Particle cosmology; Particle astrophysics; Related astrophysics: supernova, AGN, cosmic abundances, dark matter etc.; Gravitational waves; High-energy, VHE and UHE gamma-ray astronomy; High- and low-energy neutrino astronomy; Instrumentation and detector developments related to the above-mentioned fields.