Your search keyword '"Kitahara, Teppei"' showing total 11 results

1. Large t→cZ as a sign of vectorlike quarks in light of the W mass

Author

Crivellin, Andreas, Kirk, Matthew, Kitahara, Teppei, Mescia, Federico, and University of Zurich

Subjects

530 Physics, 10192 Physics Institute

Published

2022

2. Soft-Photon Corrections to B̅→Dτ-v̅τ Relative to B̅→Dμ-v̅μ.

Author

de Boer, Stefan, Kitahara, Teppei, and Nišandžić, Ivan

Subjects

*PHOTONS, *QUANTUM electrodynamics, *STANDARD model (Nuclear physics)

Abstract

We evaluate long-distance electromagnetic (QED) contributions to B̅0→D+τ-v̅τ and B-→D0τ-v̅τ relative to B̅0→D+μ-v̅μ and B-→D0μ-v̅μ, respectively, in the standard model. We point out that the QED corrections to the ratios R(D+) and R(D0) are not negligible, contrary to the expectation that radiative corrections are almost canceled out in the ratio of the two branching fractions. The reason is that long-distance QED corrections depend on the masses and relative velocities of the daughter particles. We find that theoretical predictions for R(D+)τ/μ and R(D0)τ/μ can be amplified by ~4% and ~3%, respectively, for the soft-photon energy cut in the range 20-40 MeV. [ABSTRACT FROM AUTHOR]

Published

2018

3. Direct CP Violation in K→μ+μ-.

Author

D'Ambrosio, Giancarlo and Kitahara, Teppei

Subjects

*CP violation, *LARGE Hadron Collider, *KAONS

Abstract

A rare decay KL→µ+µ- has been measured precisely, while a rare decay KS→µ+µ- will be observed by an upgrade of the LHCb experiment. Although both processes are almost CP-conserving decays, we point out that an interference contribution between KL and KS in the kaon beam emerges from a genuine direct CP violation. It is found that the interference contribution can change KS→µ+µ- standard-model predictions at O(60%). We also stress that an unknown sign of A(KL→γγ) can be determined by a measurement of the interference, which can much reduce a theoretical uncertainty of B(KL→µ+µ-). We also investigate the interference in a new physics model, where the ε'K/εK tension is explained by an additional Z-penguin contribution. [ABSTRACT FROM AUTHOR]

Published

2017

4. Supersymmetric Explanation of CP Violation in K → ππ Decays.

Author

Kitahara, Teppei, Nierste, Ulrich, and Tremper, Paul

Subjects

*CP violation, *GLUINO, *SUPERSYMMETRY

Abstract

ecent progress in the determination of hadronic matrix elements has revealed a tension between the measured value ofε'K/εK, which quantifies direct CP violation in K → ππ decays, and the standard-model prediction. The well-understood indirect CP violation encoded in the quantity εK typically precludes large new-physics contributions to ε'K/εK and challenges such an explanation of the discrepancy. We show that it is possible to cure the ε'K/εK anomaly in the minimal supersymmetric standard model with squark masses above 3 TeV without overshooting εK. This solution exploits two features of supersymmetry: the possibility of large isospin-breaking contributions (enhancing ε'K) and the Majorana nature of gluinos (permitting a suppression of εK). Our solution involves no fine-tuning of CP phases or other parameters. [ABSTRACT FROM AUTHOR]

Published

2016

5. K → πνν in the MSSM in light of the ε′K/εK anomaly.

Author

Crivellin, Andreas, D'Ambrosio, Giancarlo, Kitahara, Teppei, and Nierste, Ulrich

Subjects

*CP violation, *STANDARD model (Nuclear physics)

Abstract

The standard model (SM) prediction for the CP -violating quantity ε′K/εK deviates from its measured value by 2.8σ. It has been shown that this tension can be resolved within the minimal supersymmetric standard model (MSSM) through gluino-squark box diagrams, even if squarks and gluinos are much heavier than 1 TeV. The rare decays KL → π0νν and K + → π + νν are similarly sensitive to very high mass scales and the first one also measures C P violation. In this article, we analyze the correlations between ε′K/εK and B (KL → π0νν) and B (K + → π+νν) within the MSSM aiming at an explanation of ε′K/εK via gluino-squark box diagrams. The dominant MSSM contribution to the K → πνν branching fractions stems from box diagrams with squarks, sleptons, charginos, and neutralinos, and the pattern of the correlations is different from the widely studied Z -penguin scenarios. This is interesting in light of future precision measurements by KOTO and NA62 at J-PARC and CERN, respectively. We find B (KL → π0νν)/B SM (KL → π0νν) ≲ 2 (1.2) and B (K + → π+νν)/BSM (K + → π+νν) ≲ 1.4 (1.1), if all squark masses are above 1.5 TeV, gaugino masses obey GUT relations, and if one allows for a fine-tuning at the 1%(10%) level for the gluino mass. Larger values are possible for a tuned C P violating phase. Furthermore, the sign of the MSSM contribution to ε′K imposes a strict correlation between B (KL → π0νν) and the hierarchy between the masses m ¯ U, m ¯ D of the right-handed up-squark and down-squark: sgn [B (KL → π0νν) - BSM(KL → π0νν) ] = sgn (mU - mD). [ABSTRACT FROM AUTHOR]

Published

2017

6. Impact of polarization observables and Bc→τν on new physics explanations of the b→cτν anomaly.

Author

Blanke, Monika, Crivellin, Andreas, de Boer, Stefan, Moscati, Marta, Nierste, Ulrich, Nišandžić, Ivan, and Kitahara, Teppei

Subjects

*BRANCHING ratios, *PHYSICS, *EXPLANATION

Abstract

The combined analysis of the BABAR, Belle, and LHCb data on B→Dτν, B→D∗τν and Bc→J/Ψτν decay observables shows evidence of physics beyond the Standard Model (SM). In this article, we study all the one- and two-dimensional scenarios which can be generated by adding a single new particle to the SM. We put special emphasis on the model-discriminating power of FL(D) and of the τ polarizations, and especially on the constraint from the branching fraction BR(Bc→τν). We critically review this constraint and do not support the aggressive limit of BR(Bc→τν)<10% used in some analyses. While the impact of FL(D∗) is currently still limited, the BR(Bc→τν) constraint has a significant impact: depending on whether one uses a limit of 60%, 30% or 10%, the pull for new physics (NP) in scalar operators changes drastically. More specifically, for a conservative 60% limit a scenario with scalar operators gives the best fit to data, while for an aggressive 10% limit this scenario is strongly disfavored and the best fit is obtained in a scenario in which only a left-handed vector operator is generated. We find a sum rule for the branching ratios of B→Dτν, B→D∗τν and Λb→Λcτν which holds for any NP contribution to the Wilson coefficients. This sum rule entails an enhancement of BR(Λb→Λcτν) over its SM prediction by (24±6)% for the current R(D(*)) data. [ABSTRACT FROM AUTHOR]

Published

2019

7. Self-Consistent Extraction of Spectroscopic Bounds on Light New Physics.

Author

Delaunay C, Karr JP, Kitahara T, Koelemeij JCJ, Soreq Y, and Zupan J

Abstract

Fundamental physical constants are determined from a collection of precision measurements of elementary particles, atoms, and molecules. This is usually done under the assumption of the standard model (SM) of particle physics. Allowing for light new physics (NP) beyond the SM modifies the extraction of fundamental physical constants. Consequently, setting NP bounds using these data, and at the same time assuming the Committee on Data of the International Science Council recommended values for the fundamental physical constants, is not reliable. As we show in this Letter, both SM and NP parameters can be simultaneously determined in a consistent way from a global fit. For light vectors with QED-like couplings, such as the dark photon, we provide a prescription that recovers the degeneracy with the photon in the massless limit and requires calculations only at leading order in the small new physics couplings. At present, the data show tensions partially related to the proton charge radius determination. We show that these can be alleviated by including contributions from a light scalar with flavor nonuniversal couplings.

Published

2023

8. New Physics Implications of Recent Search for K&#95;{L}→π^{0}νν[over ¯] at KOTO.

Author

Kitahara T, Okui T, Perez G, Soreq Y, and Tobioka K

Abstract

The KOTO experiment recently reported four candidate events in the signal region of K&#95;{L}→π^{0}νν[over ¯] search, where the standard model only expects 0.10±0.02 events. If confirmed, this requires physics beyond the standard model to enhance the signal. We examine various new physics interpretations of the result including these: (1) heavy new physics boosting the standard model signal, (2) reinterpretation of "νν[over ¯]" as a new light long-lived particle, or (3) reinterpretation of the whole signal as the production of a new light long-lived particle at the fixed target. We study the above explanations in the context of a generalized new physics Grossman-Nir bound coming from the K^{+}→π^{+}νν[over ¯] decay, bounded by data from the E949 and the NA62 experiments.

Published

2020

9. Soft-Photon Corrections to B[over ¯]→Dτ^{-}ν[over ¯]&#95;{τ} Relative to B[over ¯]→Dμ^{-}ν[over ¯]&#95;{μ}.

Author

de Boer S, Kitahara T, and Nišandžić I

Abstract

We evaluate long-distance electromagnetic (QED) contributions to B[over ¯]^{0}→D^{+}τ^{-}ν[over ¯]&#95;{τ} and B^{-}→D^{0}τ^{-}ν[over ¯]&#95;{τ} relative to B[over ¯]^{0}→D^{+}μ^{-}ν[over ¯]&#95;{μ} and B^{-}→D^{0}μ^{-}ν[over ¯]&#95;{μ}, respectively, in the standard model. We point out that the QED corrections to the ratios R(D^{+}) and R(D^{0}) are not negligible, contrary to the expectation that radiative corrections are almost canceled out in the ratio of the two branching fractions. The reason is that long-distance QED corrections depend on the masses and relative velocities of the daughter particles. We find that theoretical predictions for R(D^{+})^{τ/μ} and R(D^{0})^{τ/μ} can be amplified by ∼4% and ∼3%, respectively, for the soft-photon energy cut in the range 20-40 MeV.

Published

2018

10. Direct CP Violation in K→μ^{+}μ^{-}.

Author

D'Ambrosio G and Kitahara T

Abstract

A rare decay K&#95;{L}→μ^{+}μ^{-} has been measured precisely, while a rare decay K&#95;{S}→μ^{+}μ^{-} will be observed by an upgrade of the LHCb experiment. Although both processes are almost CP-conserving decays, we point out that an interference contribution between K&#95;{L} and K&#95;{S} in the kaon beam emerges from a genuine direct CP violation. It is found that the interference contribution can change K&#95;{S}→μ^{+}μ^{-} standard-model predictions at O(60%). We also stress that an unknown sign of A(K&#95;{L}→γγ) can be determined by a measurement of the interference, which can much reduce a theoretical uncertainty of B(K&#95;{L}→μ^{+}μ^{-}). We also investigate the interference in a new physics model, where the ε&#95;{K}^{'}/ε&#95;{K} tension is explained by an additional Z-penguin contribution.

Published

2017

11. Singlino resonant dark matter and 125 GeV Higgs boson in high-scale supersymmetry.

Author

Ishikawa K, Kitahara T, and Takimoto M

Abstract

We consider a singlino dark matter (DM) scenario in a singlet extension model of the minimal supersymmetric standard model, which is the so-called the nearly minimal supersymmetric standard model. We find that with high-scale supersymmetry breaking the singlino can obtain a sizable radiative correction to the mass, which opens a window for the DM scenario with resonant annihilation via the exchange of the Higgs boson. We show that the current DM relic abundance and the Higgs boson mass can be explained simultaneously. This scenario can be fully probed by XENON1T.

Published

2014