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  1. Search for the lepton-flavor-violating τ → e± decays at Belle II

    We present the result of a search for the charged-lepton-flavor violating decays τ → e±, where ℓ is a muon or an electron, using a data sample with an integrated luminosity of 428 fb−1 recorded by the Belle II experiment at the SuperKEKB e+e collider. The selection of e+e → τ+τ events containing a signal candidate is based on an inclusive-tagging reconstruction and on a boosted decision tree to suppress background. Upper limits on the branching fractions between 1.3 and 2.5 × 10−8 are set at the 90% confidence level. These results are the most stringent bounds to date formore » four of the modes.« less
  2. Search for an axion-like particle in B → K(*)a(→ γγ) decays at Belle

    We report a search for an axion-like particle a in B → K(*)a decays using data collected with the Belle detector at the KEKB asymmetric-energy electron-positron collider. The search is based on a 711 fb−1 data sample collected at the Υ(4S) resonance energy, corresponding to a sample of 772 × 106 Υ(4S) events. In this study, we search for the decay of the axion-like particle into a pair of photons, a → γγ. We scan the two-photon invariant mass in the range 0.16 GeV–4.50 GeV for the K modes and 0.16 GeV–4.20 GeV for the K* modes. No significant signalmore » is observed in any of the modes, and 90% confidence level upper limits are established on the coupling to the W boson, gaW, as a function of a mass. The limits range from 3 × 10−6 GeV−1 to 3 × 10−5 GeV−1, improving the current constraints on gaW by a factor of two over the most stringent previous experimental results.« less
  3. Charged-hadron identification at Belle II

    The Belle II experiment’s ability to identify particles critically affects the sensitivity of its measurements. We describe Belle II’s algorithms for identifying charged particles and evaluate their performance in separating pions, kaons, and protons using $$426\,\text {fb}^{-1}$$ of data collected at the energy-asymmetric $$e^{+}e^{-}$$ collider SuperKEKB in 2019–2022 at center-of-mass energies at and near the mass of the $$\Upsilon$$ (4S).
  4. Measurement of the 𝐷0→𝐾⁢𝜋+⁢𝑒+⁢𝑒 branching fraction and search for 𝐷0 → 𝜋+⁢𝜋⁢𝑒+⁢𝑒 and 𝐷0 →𝐾+⁢𝐾⁢𝑒+⁢𝑒 decays at Belle

    We present a study of the rare charm meson decays 𝐷0 →𝐾+⁢𝐾⁢𝑒+⁢𝑒, 𝜋+⁢𝜋⁢𝑒+⁢𝑒, and 𝐾⁢𝜋+⁢𝑒+⁢𝑒 using a 942  fb−1 dataset collected by the Belle detector at the KEKB asymmetric-energy 𝑒+⁢𝑒 collider. We identify 𝐷0 candidates via the charge of the pion from 𝐷*+ →𝐷0⁢𝜋+ decays and normalize the branching fractions to 𝐷0 → 𝐾⁢𝜋+⁢𝜋⁢𝜋+ decays. The branching fraction for decay 𝐷0 → 𝐾⁢𝜋+⁢𝑒+⁢𝑒 is measured to be (39.6 ± 4.5 (stat) ± 2.9 (syst)) × 10−7, with the dielectron mass in the 𝜌/𝜔 mass region 675 < 𝑚𝑒⁢𝑒 < 875  MeV/⁢𝑐2. We also search for 𝐷0 → ℎ⁡ℎ(′)+⁡𝑒+⁢𝑒 (ℎ(′) = 𝐾, 𝜋) decays withmore » the dielectron mass near the 𝜂 and 𝜙 resonances, and away from these resonances for the 𝐾+⁢𝐾⁢𝑒+⁢𝑒 and 𝜋+⁢𝜋⁢𝑒+⁢𝑒 modes. For these modes, we find no significant signals and set 90% confidence level upper limits on their branching fractions at the 𝒪⁡(10−7) level.« less
  5. Search for B0 → K*0𝜏+⁢𝜏 Decays at the Belle II Experiment

    We present a search for the rare flavor-changing neutral-current decay 𝐵0→𝐾*0⁢𝜏+⁢𝜏 with data collected by the Belle II experiment at the SuperKEKB electron-positron collider. The analysis uses a 365 fb−1 data sample recorded at the center-of-mass energy of the ϒ⁡(4⁢𝑆) resonance. One of the 𝐵 mesons produced in the ϒ⁡(4⁢𝑆)→𝐵0$$⁢\overline{𝐵}$$0 process is fully reconstructed in a hadronic decay mode, while its companion 𝐵 meson is required to decay into a 𝐾*0 and two 𝜏 leptons of opposite charge. The 𝜏 leptons are reconstructed in final states with a single electron, muon, charged pion or charged 𝜌 meson, and additional neutrinos.more » We set an upper limit on the branching fraction of ℬ⁡(𝐵0→𝐾*0⁢𝜏+⁢𝜏)<1.8×10−3 at the 90% confidence level, which is the most stringent constraint reported to date.« less
  6. Search for a Dark Higgs Boson Produced in Association with Inelastic Dark Matter at the Belle II Experiment

    Inelastic dark matter models that have two dark matter particles and a massive dark photon can reproduce the observed relic dark matter density without violating cosmological limits. The mass splitting between the two dark matter particles 𝜒1 and 𝜒2, with 𝑚⁡(𝜒2) >𝑚⁡(𝜒1), is induced by a dark Higgs field and a corresponding dark Higgs boson ℎ′. We present a search for dark matter in events with two vertices, at least one of which must be displaced from the interaction region, and missing energy. Using a 365 fb−1 data sample collected at Belle II, which operates at the SuperKEKB 𝑒+⁢𝑒 collider,more » we observe no evidence for a signal. We set upper limits on the product of the production cross section 𝜎⁡(𝑒+⁢𝑒 → ℎ′⁡𝜒1⁢𝜒2), and the product of branching fractions ℬ⁡(𝜒2 → 𝜒1⁢𝑒+⁢𝑒) ×ℬ⁡(ℎ′ → 𝑥+⁢𝑥), where 𝑥+⁢𝑥 indicates 𝜇+⁢𝜇, 𝜋+⁢𝜋, or 𝐾+⁢𝐾, as functions of ℎ′ mass and lifetime at the level of 10−1 fb. We set model-dependent upper limits on the dark Higgs mixing angle at the level of 10−5 and on the dark photon kinetic mixing parameter at the level of 10−3. This is the first search for dark Higgs bosons in association with inelastic dark matter.« less
  7. Test of lepton flavor universality with measurements of 𝑅⁡(𝐷+) and 𝑅⁡(𝐷*+) using semileptonic 𝐵 tagging at the Belle II experiment

    We report measurements of the ratios of branching fractions ℛ⁡(𝐷(*)+) = ℬ⁡($$\bar{𝐵}$$0 → 𝐷(*)+⁢𝜏−⁢ $$\bar{𝜈}$$𝜏)/ℬ⁡($$\bar{𝐵}$$0 → 𝐷(*)+⁢ℓ$$\bar{𝜈}$$), where ℓ denotes either an electron or a muon. These ratios test the universality of the charged-current weak interaction. The results are based on a 365 fb−1 data sample collected with the Belle II detector at the SuperKEKB 𝑒+⁢𝑒 collider, which operates at a center-of-mass energy corresponding to the ϒ⁡(4⁢𝑆) resonance, just above the threshold for $$𝐵\bar{𝐵}$$ production. Signal candidates are reconstructed by selecting events in which the companion 𝐵 meson from the ϒ⁡(4⁢𝑆) → $$𝐵\bar{𝐵}$$ decay is identified in semileptonic modes. Themore » 𝜏 lepton is reconstructed via its leptonic decays. We obtain ℛ⁡(𝐷+) = 0.418$$^{+0.075}_{−0.073}$$⁢(stat)$$^{+0.049}_{−0.056}$$⁢(syst) and ℛ⁡(𝐷*+) = 0.306$$^{+0.035}_{−0.033}$$⁢(stat)$$^{+0.016}_{−0.018⁢}$$(syst), which are consistent with world average values. Accounting for the correlation between them, these values differ from the Standard Model expectation by a collective significance of 1.7 standard deviations.« less
  8. Measurements of the branching fractions of $${\Xi }_{c}^{+}\to {\Sigma }^{+}{K}_{S}^{0}$$, $${\Xi }_{c}^{+}\to {\Xi }^{0}{\pi }^{+}$$, and $${\Xi }_{c}^{+}\to {\Xi }^{0}{K}+$$ at Belle and Belle II

    Using 983.0 fb−1 and 427.9 fb−1 data samples collected with the Belle and Belle II detectors at the KEKB and SuperKEKB asymmetric energy e+e colliders, respectively, we present studies of the Cabibbo-favored $${\Xi }_{c}^{+}$$ decays $${\Xi }_{c}^{+}\to {\Sigma }^{+}{K}_{S}^{0}$$ and $${\Xi }_{c}^{+}\to {\Xi }^{0}{\pi }^{+}$$, and the singly Cabibbo-suppressed decay $${\Xi }_{c}^{+}\to {\Xi }^{0}{K}^{+}$$. The ratios of branching fractions of $${\Xi }_{c}^{+}\to {\Sigma }^{+}{K}_{S}^{0}$$ and $${\Xi }_{c}^{+}\to {\Xi }^{0}{K}^{+}$$ relative to that of $${\Xi }_{c}^{+}\to {\Xi }^{-}{\pi }^{+}{\pi }^{+}$$ are measured for the first time, while the ratio $$\mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{0}{\pi }^{+})/\mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{-}{\pi }^{+}{\pi }^{+})$$ is alsomore » determined and improved by an order of magnitude in precision. The measured branching fraction ratios are $$\begin{array}{c}\frac{\mathcal{B}\left({\Xi }_{c}^{+}\to {\Sigma }^{+}{K}_{S}^{0}\right)}{\mathcal{B}\left({\Xi }_{c}^{+}\to {\Xi }^{-}{\pi }^{+}{\pi }^{+}\right)}=0.067\pm 0.007\pm 0.003,\\ \frac{\mathcal{B}\left({\Xi }_{c}^{+}\to {\Xi }^{0}{\pi }^{+}\right)}{\mathcal{B}\left({\Xi }_{c}^{+}\to {\Xi }^{-}{\pi }^{+}{\pi }^{+}\right)}=0.251\pm 0.005\pm 0.010,\\ \frac{\mathcal{B}\left({\Xi }_{c}^{+}\to {\Xi }^{0}{K}^{+}\right)}{\mathcal{B}\left({\Xi }_{c}^{+}\to {\Xi }^{-}{\pi }^{+}{\pi }^{+}\right)}=0.017\pm 0.003\pm 0.001.\end{array}$$ Additionally, the ratio $$\mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{0}{K}^{+})/\mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{0}{\pi }^{+})$$ is measured to be 0.068 ± 0.010 ± 0.004. Here, the first and second uncertainties are statistical and systematic, respectively. Multiplying the ratios by the branching fraction of the normalization mode, $$\mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{-}{\pi }^{+}{\pi }^{+})=(2.9\pm 1.3)%$$, we obtain the following absolute branching fractions $$\begin{array}{c}\mathcal{B}({\Xi }_{c}^{+}\to {\Sigma }^{+}{K}_{S}^{0})=(0.194\pm 0.021\pm 0.009\pm 0.087)\text{%},\\ \mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{0}{\pi }^{+})=(0.728\pm 0.014\pm 0.027\pm 0.326)\text{%},\\ \mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{0}{K}^{+})=(0.049\pm 0.007\pm 0.003\pm 0.022)\text{%},\end{array}$$ where the third uncertainties are from $$\mathcal{B}({\Xi }_{c}^{+}\to {\Xi }^{-}{\pi }^{+}{\pi }^{+})$$.« less
  9. Search for lepton flavor-violating decay modes B0 → K*0τ± (ℓ = e, μ) with hadronic B-tagging at Belle and Belle II

    We present the results of a search for the charged-lepton-flavor violating decays B0 → K*0τ±, where ℓ is either an electron or a muon. The results are based on 365 fb−1 and 711 fb−1 datasets collected with the Belle II and Belle detectors, respectively. We use an exclusive hadronic B-tagging technique, and search for a signal decay in the system recoiling against a fully reconstructed B meson. We find no evidence for B0 → K*0τ± decays and set upper limits on the branching fractions in the range of (2.9–6.4)×10−5 at 90% confidence level.
  10. Search for lepton-flavor-violating $${\tau }^{-}\to {{\ell}}^{-}{K}_{s}^{0}$$ decays at Belle and Belle II

    We present the results of a search for charged-lepton-flavor violating decays $${\tau }^{-}\to {{\ell}}^{-}{K}_{s}^{0}$$, where ℓ is either an electron or a muon. We combine e+e data samples recorded by the Belle II experiment at the SuperKEKB collider (428 fb−1) with samples recorded by the Belle experiment at the KEKB collider (980 fb−1) to obtain a sample of 1.3 billion e+e → τ+τ events. We observe 0 and 1 events and set 90% confidence level upper limits of 0.8 × 10−8 and 1.2 × 10−8 on the branching fractions of the decay modes $${\tau }^{-}\to {e}^{-}{K}_{S}^{0}$$ and $${\tau }^{-}\to {\mumore » }^{-}{K}_{S}^{0}$$, respectively. These are the most stringent upper limits to date.« less
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