Higgs Portal Interpretation of the Belle II \(B^+ \to K^+ \nu \nu\) Measurement
The Belle II experiment recently observed the decay \(B^+ \to K^+ \nu \nu\) for the first time, with a measured value for the branching ratio of \( (2.3 \pm 0.7) \times 10^{-5}\). This result exhibits a \(\sim 3\sigma\) deviation from the Standard Model (SM) prediction. The observed enhancement with...
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| description | The Belle II experiment recently observed the decay \(B^+ \to K^+ \nu \nu\) for the first time, with a measured value for the branching ratio of \( (2.3 \pm 0.7) \times 10^{-5}\). This result exhibits a \(\sim 3\sigma\) deviation from the Standard Model (SM) prediction. The observed enhancement with respect to the Standard Model could indicate the presence of invisible light new physics. In this paper, we investigate whether this result can be accommodated in a minimal Higgs portal model, where the SM is extended by a singlet Higgs scalar that decays invisibly to dark sector states. We find that current and future bounds on invisible decays of the 125 GeV Higgs boson completely exclude a new scalar with a mass \(\gtrsim 10\) GeV. On the other hand, the Belle II results can be successfully accommodated if the new scalar is lighter than \(B\) mesons but heavier than kaons. We also investigate the cosmological implications of the new states and explore the possibility that they are part of an abelian Higgs extension of the SM. Future Higgs factories are expected to place stringent bounds on the invisible branching ratio of the 125 GeV Higgs boson, and will be able to definitively test the region of parameter space favored by the Belle II results. |
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This result exhibits a \(\sim 3\sigma\) deviation from the Standard Model (SM) prediction. The observed enhancement with respect to the Standard Model could indicate the presence of invisible light new physics. In this paper, we investigate whether this result can be accommodated in a minimal Higgs portal model, where the SM is extended by a singlet Higgs scalar that decays invisibly to dark sector states. We find that current and future bounds on invisible decays of the 125 GeV Higgs boson completely exclude a new scalar with a mass \(\gtrsim 10\) GeV. On the other hand, the Belle II results can be successfully accommodated if the new scalar is lighter than \(B\) mesons but heavier than kaons. We also investigate the cosmological implications of the new states and explore the possibility that they are part of an abelian Higgs extension of the SM. 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The observed enhancement with respect to the Standard Model could indicate the presence of invisible light new physics. In this paper, we investigate whether this result can be accommodated in a minimal Higgs portal model, where the SM is extended by a singlet Higgs scalar that decays invisibly to dark sector states. We find that current and future bounds on invisible decays of the 125 GeV Higgs boson completely exclude a new scalar with a mass \(\gtrsim 10\) GeV. On the other hand, the Belle II results can be successfully accommodated if the new scalar is lighter than \(B\) mesons but heavier than kaons. We also investigate the cosmological implications of the new states and explore the possibility that they are part of an abelian Higgs extension of the SM. 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| source | Freely Accessible Journals |
| subjects | Astronomical models Cosmology Higgs bosons Kaons Mesons |
| title | Higgs Portal Interpretation of the Belle II \(B^+ \to K^+ \nu \nu\) Measurement |
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