Light dark sector searches at low-energy high-luminosity e + e − colliders

Yin, Peng-Fei; Zhu, Shou-hua

doi:10.1007/s11467-016-0541-1

Cited by 3 publications

(1 citation statement)

References 89 publications

(120 reference statements)

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“…Such experiments are ideally suited to probe weak-scale dark matter candidates. In contrast, low-energy e + e − colliders like B-factories, as they operate at a much lower center-of-mass energy, have higher sensitivity to probe light dark sector candidates [9][10][11][12][13][14][15]. The Belle II experiment at the Japanese KEK laboratory, is a new generation B-factory experiment, which is expected to explore dark sector physics with unprecedented precision in a mass range up to ∼10 GeV/c 2 .…”

Section: Introductionmentioning

confidence: 99%

Dark Sector first results at Belle II

Campajola¹

2021

Phys. Scr.

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Understanding the nature of dark matter is one of the most exciting challenges in fundamental physics nowadays, requiring the synergy of different search techniques, as well as theoretical inputs. An interesting opportunity for the investigation of dark matter is the one offered by the B-factories. The Belle II experiment, located at the interaction point of the SuperKEKB asymmetric energy e + e − collider, is a new generation B-factory experiment operating at the Japanese KEK laboratory. With a machine design luminosity of 6 × 1035 cm−2 s −1, Belle II aims to record 50 ab−1 of data within the next decade. Thanks to this large data-sample and by using dedicated triggers, Belle II is expected to explore dark sector candidates with unprecedented sensitivity in the mass range up to 10 GeV/c 2. During 2018, the experiment concluded a commissioning run, collecting a data-sample corresponding to an integrated luminosity of about 0.5 fb−1, while main operations started on March 2019 with an almost complete detector. So far the experiment collected an integrated luminosity of ∼ 90 fb−1. With these data-sets Belle II has already shown the possibility to search for a large variety of dark sector candidates in the GeV mass range. This paper reviews the status of the dark sector searches performed at the Belle II experiment, with a focus on the first obtained results and the discovery potential with the data-set available in the short term.

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Section: Introductionmentioning

confidence: 99%

Dark Sector first results at Belle II

Campajola¹

2021

Phys. Scr.

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Precision spectroscopy of positronium: Testing bound-state QED theory and the search for physics beyond the Standard Model

2022

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Extension of the standard model of electroweak interaction and Dark Matter in the tangent bundle geometry

Herrmann

2019

Eur. Phys. J. C

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A generalized theory of electroweak interaction is developed based on the underlying geometrical structure of the tangent bundle with symmetries arising from transformations of tangent vectors along the fiber axis at a fixed space-time point given by the SO(3,1) group. Electroweak interaction beyond the standard model (SM) is described by the little groups SU (2)⊗E c (2) (E c (2) is the central extended Euclidian group) which includes the group SU (2) ⊗ U (1) as a limiting case. In addition to isospin and hypercharge, two additional quantum numbers arise which explain the existence of families in the SM. The connection coefficients deliver the SM gauge potentials but also hypothetical gauge bosons and other hypothetical particles as a Higgs family as well as candidate Dark Matter particles are predicted. Several important consequences for the interaction between dark fermions, dark scalars or dark vector gauge bosons with each other and with SM Higgs and Z-bosons are described.

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Light dark sector searches at low-energy high-luminosity e + e − colliders

Cited by 3 publications

References 89 publications

Dark Sector first results at Belle II

Dark Sector first results at Belle II

Precision spectroscopy of positronium: Testing bound-state QED theory and the search for physics beyond the Standard Model

Extension of the standard model of electroweak interaction and Dark Matter in the tangent bundle geometry

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