Abstract
We address the presently reported significant flavor anomalies in the Kaon and B meson systems such as the CP violating Kaon decay (ϵ′/ϵ) and lepton-flavor universality violation in B meson decays \( \left({R}_{K^{\left(*\right)}},\ {R}_{D^{\left(*\right)}}\right) \), by proposing flavorful and chiral vector bosons as the new physics constitution at around TeV scale. The chiral-flavorful vectors (CFVs) are introduced as a 63-plet of the global SU(8) symmetry, identified as the one-family symmetry for left-handed quarks and leptons in the standard model (SM) forming the 8-dimensional vector. Thus the CFVs include massive gluons, vector leptoquarks, and W′, Z′-type bosons, which are allowed to have flavorful couplings with left-handed quarks and leptons, and flavor-universal couplings to right-handed ones, where the latter arises from mixing with the SM gauge bosons. The flavor texture is assumed to possess a “minimal” structure to be consistent with the current flavor measurements on the K and B systems. Among the presently reported significant flavor anomalies in the Kaon and B meson systems (ϵ′/ϵ, \( {R}_{K^{\left(*\right)}},\ {R}_{D^{\left(*\right)}} \)), the first two ϵ′/ϵ and \( {R}_{K^{\left(*\right)}} \) anomalies can simultaneously be interpreted by the presence of CFVs; the \( {R}_{D^{\left(*\right)}} \) anomaly is predicted not to survive, due to the approximate SU(8) flavor symmetry. Remarkably, we find that as long as both of the ϵ′/ϵ and \( {R}_{K^{\left(*\right)}} \) anomalies persist beyond the SM, the CFVs predict the enhanced \( {K}^{+}\to {\pi}^{+}\nu \overline{\nu} \) and \( {K}_L\to {\pi}^0\nu \overline{\nu} \) decay rates compared to the SM values, which will readily be explored by the NA62 and KOTO experiments, and they will also be explored in new resonance searches at the Large Hadron Collider.
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A.J. Buras, M. Gorbahn, S. Jäger and M. Jamin, Improved anatomy of ε′ε in the Standard Model, JHEP 11 (2015) 202 [arXiv:1507.06345] [INSPIRE].
T. Kitahara, U. Nierste and P. Tremper, Singularity-free next-to-leading order ΔS = 1 renormalization group evolution and ϵ ′ K /ϵK in the Standard Model and beyond, JHEP 12 (2016) 078 [arXiv:1607.06727] [INSPIRE].
A.J. Buras and J.-M. Gérard, Upper bounds on ε ′ ε parameters B (1/2)6 and B (3/2)8 from large N QCD and other news, JHEP 12 (2015) 008 [arXiv:1507.06326] [INSPIRE].
A.J. Buras and J.-M. Gerard, Final state interactions in K → ππ decays: ΔI = 1/2 rule vs. ε′/ε, Eur. Phys. J. C 77 (2017) 10 [arXiv:1603.05686] [INSPIRE].
H. Gisbert and A. Pich, Direct CP-violation in K 0 → ππ: Standard Model Status, Rept. Prog. Phys. 81 (2018) 076201 [arXiv:1712.06147] [INSPIRE].
RBC and UKQCD collaborations, Z. Bai et al., Standard Model Prediction for Direct CP-violation in K → ππ Decay, Phys. Rev. Lett. 115 (2015) 212001 [arXiv:1505.07863] [INSPIRE].
NA48 collaboration, J.R. Batley et al., A Precision measurement of direct CP-violation in the decay of neutral kaons into two pions, Phys. Lett. B 544 (2002) 97 [hep-ex/0208009] [INSPIRE].
KTeV collaboration, A. Alavi-Harati et al., Measurements of direct CP-violation, CPT symmetry and other parameters in the neutral kaon system, Phys. Rev. D 67 (2003) 012005 [Erratum ibid. D 70 (2004) 079904] [hep-ex/0208007] [INSPIRE].
KTeV collaboration, E. Abouzaid et al., Precise Measurements of Direct CP-violation, CPT Symmetry and Other Parameters in the Neutral Kaon System, Phys. Rev. D 83 (2011) 092001 [arXiv:1011.0127] [INSPIRE].
Particle Data Group collaboration, C. Patrignani et al., Review of Particle Physics, Chin. Phys. C 40 (2016) 100001 [INSPIRE].
LHCb collaboration, Test of lepton universality using B + → K + ℓ + ℓ − decays, Phys. Rev. Lett. 113 (2014) 151601 [arXiv:1406.6482] [INSPIRE].
LHCb collaboration, Test of lepton universality with B 0 → K *0 ℓ + ℓ − decays, JHEP 08 (2017) 055 [arXiv:1705.05802] [INSPIRE].
BaBar collaboration, J.P. Lees et al., Evidence for an excess of \( \overline{B}\to {D}^{\left(\ast \right)}{\tau}^{-}{\overline{\nu}}_{\tau } \) decays, Phys. Rev. Lett. 109 (2012) 101802 [arXiv:1205.5442] [INSPIRE].
BaBar collaboration, J.P. Lees et al., Measurement of an Excess of \( \overline{B}\to {D}^{\left(\ast \right)}{\tau}^{-}{\overline{\nu}}_{\tau } \) Decays and Implications for Charged Higgs Bosons, Phys. Rev. D 88 (2013) 072012 [arXiv:1303.0571] [INSPIRE].
LHCb collaboration, Measurement of the ratio of branching fractions \( \mathrm{\mathcal{B}}\left({\overline{B}}^0\to {D}^{\ast +}{\tau}^{-}\overline{\nu}\tau \right)/\mathrm{\mathcal{B}}\left({\overline{B}}^0\to {D}^{\ast +}{\mu}^{-}{\overline{\nu}}_{\mu}\right) \), Phys. Rev. Lett. 115 (2015) 111803 [Erratum ibid. 115 (2015) 159901] [arXiv:1506.08614] [INSPIRE].
Belle collaboration, M. Huschle et al., Measurement of the branching ratio of \( \overline{B}\to {D}^{\left(*\right)}{\tau}^{-}{\overline{\nu}}_{\tau } \) relative to \( \overline{B}\to {D}^{\left(\ast \right)}{\ell}^{-}{\overline{\nu}}_{\ell } \) decays with hadronic tagging at Belle, Phys. Rev. D 92 (2015) 072014 [arXiv:1507.03233] [INSPIRE].
Belle collaboration, Y. Sato et al., Measurement of the branching ratio of \( {\overline{B}}^0\to {D}^{\ast +}{\tau}^{-}{\overline{\nu}}_{\tau } \) relative to \( {\overline{B}}^0\to {D}^{\ast +}{\ell}^{-}{\overline{\nu}}_{\ell } \) decays with a semileptonic tagging method, Phys. Rev. D 94 (2016) 072007 [arXiv:1607.07923] [INSPIRE].
Belle collaboration, S. Hirose et al., Measurement of the τ lepton polarization and R(D *) in the decay \( \overline{B}\to {D}^{\ast }{\tau}^{-}{\overline{\nu}}_{\tau } \), Phys. Rev. Lett. 118 (2017) 211801 [arXiv:1612.00529] [INSPIRE].
LHCb collaboration, Measurement of the ratio of the B 0 → D *− τ + ν τ and B 0 → D *− μ + ν μ branching fractions using three-prong τ-lepton decays, Phys. Rev. Lett. 120 (2018) 171802 [arXiv:1708.08856] [INSPIRE].
S. Matsuzaki, K. Nishiwaki and R. Watanabe, Phenomenology of flavorful composite vector bosons in light of B anomalies, JHEP 08 (2017) 145 [arXiv:1706.01463] [INSPIRE].
I. Doršner, S. Fajfer, A. Greljo, J.F. Kamenik and N. Košnik, Physics of leptoquarks in precision experiments and at particle colliders, Phys. Rept. 641 (2016) 1 [arXiv:1603.04993] [INSPIRE].
N. Assad, B. Fornal and B. Grinstein, Baryon Number and Lepton Universality Violation in Leptoquark and Diquark Models, Phys. Lett. B 777 (2018) 324 [arXiv:1708.06350] [INSPIRE].
M. Bando, T. Kugo, S. Uehara, K. Yamawaki and T. Yanagida, Is rho Meson a Dynamical Gauge Boson of Hidden Local Symmetry?, Phys. Rev. Lett. 54 (1985) 1215 [INSPIRE].
M. Bando, T. Kugo and K. Yamawaki, On the Vector Mesons as Dynamical Gauge Bosons of Hidden Local Symmetries, Nucl. Phys. B 259 (1985) 493 [INSPIRE].
M. Bando, T. Fujiwara and K. Yamawaki, Generalized Hidden Local Symmetry and the A1 Meson, Prog. Theor. Phys. 79 (1988) 1140 [INSPIRE].
M. Bando, T. Kugo and K. Yamawaki, Nonlinear Realization and Hidden Local Symmetries, Phys. Rept. 164 (1988) 217 [INSPIRE].
M. Harada and K. Yamawaki, Hidden local symmetry at loop: A New perspective of composite gauge boson and chiral phase transition, Phys. Rept. 381 (2003) 1 [hep-ph/0302103] [INSPIRE].
H.S. Fukano, S. Matsuzaki, K. Terashi and K. Yamawaki, Conformal Barrier and Hidden Local Symmetry Constraints: Walking Technirhos in LHC Diboson Channels, Nucl. Phys. B 904 (2016) 400 [arXiv:1510.08184] [INSPIRE].
A.J. Buras, New physics patterns in ε′/ε and ε K with implications for rare kaon decays and ΔM K, JHEP 04 (2016) 071 [arXiv:1601.00005] [INSPIRE].
A.J. Buras, F. De Fazio and J. Girrbach, ΔI = 1/2 rule, ε′/ε and \( K\to \pi \nu \overline{\nu} \) in Z′(Z) and G′ models with FCNC quark couplings, Eur. Phys. J. C 74 (2014) 2950 [arXiv:1404.3824] [INSPIRE].
B. Bhattacharya, A. Datta, J.-P. Guévin, D. London and R. Watanabe, Simultaneous Explanation of the R K and \( {R}_{D^{\left(*\right)}} \) Puzzles: a Model Analysis, JHEP 01 (2017) 015 [arXiv:1609.09078] [INSPIRE].
M. González-Alonso, J. Martin Camalich and K. Mimouni, Renormalization-group evolution of new physics contributions to (semi)leptonic meson decays, Phys. Lett. B 772 (2017) 777 [arXiv:1706.00410] [INSPIRE].
H. Arason et al., Renormalization group study of the standard model and its extensions. 1. The Standard model, Phys. Rev. D 46 (1992) 3945 [INSPIRE].
C. Ford, I. Jack and D.R.T. Jones, The Standard model effective potential at two loops, Nucl. Phys. B 387 (1992) 373 [Erratum ibid. B 504 (1997) 551] [hep-ph/0111190] [INSPIRE].
Y. Hamada, H. Kawai and K.-y. Oda, Bare Higgs mass at Planck scale, Phys. Rev. D 87 (2013) 053009 [Erratum ibid. D 89 (2014) 059901] [arXiv:1210.2538] [INSPIRE].
G. Degrassi et al., Higgs mass and vacuum stability in the Standard Model at NNLO, JHEP 08 (2012) 098 [arXiv:1205.6497] [INSPIRE].
J. Charles et al., Current status of the Standard Model CKM fit and constraints on ΔF = 2 New Physics, Phys. Rev. D 91 (2015) 073007 [arXiv:1501.05013] [INSPIRE].
C. Bobeth, M. Gorbahn, T. Hermann, M. Misiak, E. Stamou and M. Steinhauser, B s,d → l + l − in the Standard Model with Reduced Theoretical Uncertainty, Phys. Rev. Lett. 112 (2014) 101801 [arXiv:1311.0903] [INSPIRE].
B. Capdevila, A. Crivellin, S. Descotes-Genon, J. Matias and J. Virto, Patterns of New Physics in b → sℓ + ℓ − transitions in the light of recent data, JHEP 01 (2018) 093 [arXiv:1704.05340] [INSPIRE].
G. D’Amico et al., Flavour anomalies after the \( {R}_{K^{*}} \) measurement, JHEP 09 (2017) 010 [arXiv:1704.05438] [INSPIRE].
W. Altmannshofer, P. Stangl and D.M. Straub, Interpreting Hints for Lepton Flavor Universality Violation, Phys. Rev. D 96 (2017) 055008 [arXiv:1704.05435] [INSPIRE].
L.-S. Geng, B. Grinstein, S. Jäger, J. Martin Camalich, X.-L. Ren and R.-X. Shi, Towards the discovery of new physics with lepton-universality ratios of b → sℓℓ decays, Phys. Rev. D 96 (2017) 093006 [arXiv:1704.05446] [INSPIRE].
M. Ciuchini et al., On Flavourful Easter eggs for New Physics hunger and Lepton Flavour Universality violation, Eur. Phys. J. C 77 (2017) 688 [arXiv:1704.05447] [INSPIRE].
G. Hiller and I. Nisandzic, R K and \( {R}_{K^{*}} \) beyond the standard model, Phys. Rev. D 96 (2017) 035003 [arXiv:1704.05444] [INSPIRE].
A. Celis, J. Fuentes-Martin, A. Vicente and J. Virto, Gauge-invariant implications of the LHCb measurements on lepton-flavor nonuniversality, Phys. Rev. D 96 (2017) 035026 [arXiv:1704.05672] [INSPIRE].
D. Ghosh, Explaining the R K and \( {R}_{K^{*}} \) anomalies, Eur. Phys. J. C 77 (2017) 694 [arXiv:1704.06240] [INSPIRE].
A.K. Alok, D. Kumar, J. Kumar and R. Sharma, Lepton flavor non-universality in the B-sector: a global analyses of various new physics models, arXiv:1704.07347 [INSPIRE].
A.K. Alok, B. Bhattacharya, A. Datta, D. Kumar, J. Kumar and D. London, New Physics in b → sμ + μ − after the Measurement of \( {R}_{K^{*}} \), Phys. Rev. D 96 (2017) 095009 [arXiv:1704.07397] [INSPIRE].
W. Wang and S. Zhao, Implications of the R K and \( {R}_{K^{*}} \) anomalies, Chin. Phys. C 42 (2018) 013105 [arXiv:1704.08168] [INSPIRE].
D. Bardhan, P. Byakti and D. Ghosh, Role of Tensor operators in R K and \( {R}_{K^{*}} \), Phys. Lett. B 773 (2017) 505 [arXiv:1705.09305] [INSPIRE].
S. Descotes-Genon, J. Matias, M. Ramon and J. Virto, Implications from clean observables for the binned analysis of B → K * μ + μ − at large recoil, JHEP 01 (2013) 048 [arXiv:1207.2753] [INSPIRE].
LHCb collaboration, Measurement of Form-Factor-Independent Observables in the Decay B 0 → K *0 μ + μ −, Phys. Rev. Lett. 111 (2013) 191801 [arXiv:1308.1707] [INSPIRE].
LHCb collaboration, Angular analysis of the B 0 → K *0 μ + μ − decay using 3 fb −1 of integrated luminosity, JHEP 02 (2016) 104 [arXiv:1512.04442] [INSPIRE].
Belle collaboration, A. Abdesselam et al., Angular analysis of B 0 → K *(892)0 ℓ + ℓ −, in Proceedings, LHCSki 2016 — A First Discussion of 13 TeV Results, Obergurgl, Austria, April 10–15, 2016 (2016) [arXiv:1604.04042] [INSPIRE].
Belle collaboration, S. Wehle et al., Lepton-Flavor-Dependent Angular Analysis of B → K * ℓ + ℓ −, Phys. Rev. Lett. 118 (2017) 111801 [arXiv:1612.05014] [INSPIRE].
ATLAS collaboration, Angular analysis of B 0 d → K ∗ μ + μ − decays in pp collisions at \( \sqrt{s}=8 \) TeV with the ATLAS detector, ATLAS-CONF-2017-023.
CMS collaboration, Measurement of the P 1 and P ′5 angular parameters of the decay B0 → K*0 μ + μ − in proton-proton collisions at \( \sqrt{s}=8 \) TeV, CMS-PAS-BPH-15-008 (2015).
W. Altmannshofer and D.M. Straub, New Physics in B → K * μμ?, Eur. Phys. J. C 73 (2013) 2646 [arXiv:1308.1501] [INSPIRE].
R. Gauld, F. Goertz and U. Haisch, On minimal Z′ explanations of the B → K * μ + μ − anomaly, Phys. Rev. D 89 (2014) 015005 [arXiv:1308.1959] [INSPIRE].
A.J. Buras and J. Girrbach, Left-handed Z′ and Z FCNC quark couplings facing new b → sμ + μ − data, JHEP 12 (2013) 009 [arXiv:1309.2466] [INSPIRE].
W. Altmannshofer, S. Gori, M. Pospelov and I. Yavin, Quark flavor transitions in L μ − L τ models, Phys. Rev. D 89 (2014) 095033 [arXiv:1403.1269] [INSPIRE].
P. Biancofiore, P. Colangelo and F. De Fazio, Rare semileptonic B → K * ℓ + ℓ − decays in RS c model, Phys. Rev. D 89 (2014) 095018 [arXiv:1403.2944] [INSPIRE].
G. Hiller and M. Schmaltz, R K and future b → sℓℓ physics beyond the standard model opportunities, Phys. Rev. D 90 (2014) 054014 [arXiv:1408.1627] [INSPIRE].
A. Crivellin, G. D’Ambrosio and J. Heeck, Explaining h → μ ± τ ∓ , B → K * μ + μ − and B → Kμ + μ − /B → Ke + e − in a two-Higgs-doublet model with gauged L μ − L τ, Phys. Rev. Lett. 114 (2015) 151801 [arXiv:1501.00993] [INSPIRE].
A. Crivellin, G. D’Ambrosio and J. Heeck, Addressing the LHC flavor anomalies with horizontal gauge symmetries, Phys. Rev. D 91 (2015) 075006 [arXiv:1503.03477] [INSPIRE].
C. Niehoff, P. Stangl and D.M. Straub, Violation of lepton flavour universality in composite Higgs models, Phys. Lett. B 747 (2015) 182 [arXiv:1503.03865] [INSPIRE].
A. Celis, J. Fuentes-Martin, M. Jung and H. Serodio, Family nonuniversal Z’ models with protected flavor-changing interactions, Phys. Rev. D 92 (2015) 015007 [arXiv:1505.03079] [INSPIRE].
A. Greljo, G. Isidori and D. Marzocca, On the breaking of Lepton Flavor Universality in B decays, JHEP 07 (2015) 142 [arXiv:1506.01705] [INSPIRE].
C. Niehoff, P. Stangl and D.M. Straub, Direct and indirect signals of natural composite Higgs models, JHEP 01 (2016) 119 [arXiv:1508.00569] [INSPIRE].
W. Altmannshofer and I. Yavin, Predictions for lepton flavor universality violation in rare B decays in models with gauged L μ − L τ, Phys. Rev. D 92 (2015) 075022 [arXiv:1508.07009] [INSPIRE].
A. Falkowski, M. Nardecchia and R. Ziegler, Lepton Flavor Non-Universality in B-meson Decays from a U(2) Flavor Model, JHEP 11 (2015) 173 [arXiv:1509.01249] [INSPIRE].
A. Carmona and F. Goertz, Lepton Flavor and Nonuniversality from Minimal Composite Higgs Setups, Phys. Rev. Lett. 116 (2016) 251801 [arXiv:1510.07658] [INSPIRE].
C.-W. Chiang, X.-G. He and G. Valencia, Z′ model for b → sℓoverlineℓ flavor anomalies, Phys. Rev. D 93 (2016) 074003 [arXiv:1601.07328] [INSPIRE].
W. Altmannshofer, M. Carena and A. Crivellin, L μ − L τ theory of Higgs flavor violation and (g − 2)μ, Phys. Rev. D 94 (2016) 095026 [arXiv:1604.08221] [INSPIRE].
S.M. Boucenna, A. Celis, J. Fuentes-Martin, A. Vicente and J. Virto, Non-abelian gauge extensions for B-decay anomalies, Phys. Lett. B 760 (2016) 214 [arXiv:1604.03088] [INSPIRE].
S.M. Boucenna, A. Celis, J. Fuentes-Martin, A. Vicente and J. Virto, Phenomenology of an SU(2) × SU(2) × U(1) model with lepton-flavour non-universality, JHEP 12 (2016) 059 [arXiv:1608.01349] [INSPIRE].
E. Megias, G. Panico, O. Pujolàs and M. Quirós, A Natural origin for the LHCb anomalies, JHEP 09 (2016) 118 [arXiv:1608.02362] [INSPIRE].
A. Celis, W.-Z. Feng and M. Vollmann, Dirac dark matter and b → sℓ + ℓ − with U(1) gauge symmetry, Phys. Rev. D 95 (2017) 035018 [arXiv:1608.03894] [INSPIRE].
W. Altmannshofer, S. Gori, S. Profumo and F.S. Queiroz, Explaining dark matter and B decay anomalies with an L μ − L τ model, JHEP 12 (2016) 106 [arXiv:1609.04026] [INSPIRE].
A. Crivellin, J. Fuentes-Martin, A. Greljo and G. Isidori, Lepton Flavor Non-Universality in B decays from Dynamical Yukawas, Phys. Lett. B 766 (2017) 77 [arXiv:1611.02703] [INSPIRE].
I. Garcia Garcia, LHCb anomalies from a natural perspective, JHEP 03 (2017) 040 [arXiv:1611.03507] [INSPIRE].
D. Bhatia, S. Chakraborty and A. Dighe, Neutrino mixing and R K anomaly in U(1)X models: a bottom-up approach, JHEP 03 (2017) 117 [arXiv:1701.05825] [INSPIRE].
J.M. Cline, J.M. Cornell, D. London and R. Watanabe, Hidden sector explanation of B-decay and cosmic ray anomalies, Phys. Rev. D 95 (2017) 095015 [arXiv:1702.00395] [INSPIRE].
P. Ko, Y. Omura, Y. Shigekami and C. Yu, LHCb anomaly and B physics in flavored Z′ models with flavored Higgs doublets, Phys. Rev. D 95 (2017) 115040 [arXiv:1702.08666] [INSPIRE].
E. Megias, M. Quirós and L. Salas, Lepton-flavor universality violation in R K and \( {R}_{D^{\left(*\right)}} \) from warped space, JHEP 07 (2017) 102 [arXiv:1703.06019] [INSPIRE].
J.F. Kamenik, Y. Soreq and J. Zupan, Lepton flavor universality violation without new sources of quark flavor violation, Phys. Rev. D 97 (2018) 035002 [arXiv:1704.06005] [INSPIRE].
R. Alonso, P. Cox, C. Han and T.T. Yanagida, Anomaly-free local horizontal symmetry and anomaly-full rare B-decays, Phys. Rev. D 96 (2017) 071701 [arXiv:1704.08158] [INSPIRE].
C. Bonilla, T. Modak, R. Srivastava and J.W.F. Valle, \( \mathrm{U}{(1)}_{B_3-3{L}_{\mu }} \) gauge symmetry as a simple description of b → s anomalies, Phys. Rev. D 98 (2018) 095002 [arXiv:1705.00915] [INSPIRE].
J. Ellis, M. Fairbairn and P. Tunney, Anomaly-Free Models for Flavour Anomalies, Eur. Phys. J. C 78 (2018) 238 [arXiv:1705.03447] [INSPIRE].
R. Alonso, P. Cox, C. Han and T.T. Yanagida, Flavoured B − L local symmetry and anomalous rare B decays, Phys. Lett. B 774 (2017) 643 [arXiv:1705.03858] [INSPIRE].
J. Kawamura, S. Okawa and Y. Omura, Interplay between the b→ sℓℓ anomalies and dark matter physics, Phys. Rev. D 96 (2017) 075041 [arXiv:1706.04344] [INSPIRE].
S.F. King, Flavourful Z′ models for \( {R}_{K^{\left(*\right)}} \), JHEP 08 (2017) 019 [arXiv:1706.06100] [INSPIRE].
C.-H. Chen and T. Nomura, Penguin b → sℓ′+ ℓ′− and B-meson anomalies in a gauged L μ − L τ, Phys. Lett. B 777 (2018) 420 [arXiv:1707.03249] [INSPIRE].
E. Megias, M. Quirós and L. Salas, Lepton-flavor universality limits in warped space, Phys. Rev. D 96 (2017) 075030 [arXiv:1707.08014] [INSPIRE].
S. Baek, Dark matter contribution to b → sμ + μ − anomaly in local \( \mathrm{U}{(1)}_{L_{\mu }-{L}_{\tau }} \) model, Phys. Lett. B 781 (2018) 376 [arXiv:1707.04573] [INSPIRE].
L. Bian, S.-M. Choi, Y.-J. Kang and H.M. Lee, A minimal flavored U(1)′ for B-meson anomalies, Phys. Rev. D 96 (2017) 075038 [arXiv:1707.04811] [INSPIRE].
H.M. Lee, Gauged U(1) clockwork theory, Phys. Lett. B 778 (2018) 79 [arXiv:1708.03564] [INSPIRE].
K. Fuyuto, H.-L. Li and J.-H. Yu, Implications of hidden gauged U(1) model for B anomalies, Phys. Rev. D 97 (2018) 115003 [arXiv:1712.06736] [INSPIRE].
G. D’Ambrosio and A.M. Iyer, Flavour issues in warped custodial models: B anomalies and rare K decays, Eur. Phys. J. C 78 (2018) 448 [arXiv:1712.08122] [INSPIRE].
S. Dasgupta, U.K. Dey, T. Jha and T.S. Ray, Status of a flavor-maximal nonminimal universal extra dimension model, Phys. Rev. D 98 (2018) 055006 [arXiv:1801.09722] [INSPIRE].
A. Falkowski, S.F. King, E. Perdomo and M. Pierre, Flavourful Z ′ portal for vector-like neutrino Dark Matter and \( {R}_{K^{\left(*\right)}} \), JHEP 08 (2018) 061 [arXiv:1803.04430] [INSPIRE].
P. Asadi, M.R. Buckley and D. Shih, It’s all right(-handed neutrinos): a new W′ model for the \( {R}_{D^{\left(*\right)}} \) anomaly, JHEP 09 (2018) 010 [arXiv:1804.04135] [INSPIRE].
A. Greljo, D.J. Robinson, B. Shakya and J. Zupan, R(D (*)) from W′ and right-handed neutrinos, JHEP 09 (2018) 169 [arXiv:1804.04642] [INSPIRE].
L. Calibbi, A. Crivellin and T. Ota, Effective Field Theory Approach to b → sℓℓ (′) , \( B\to {K}^{\left(\ast \right)}\nu \overline{\nu} \) and \( B\to {D}^{\left(\ast \right)}\nu \overline{\nu} \) with Third Generation Couplings, Phys. Rev. Lett. 115 (2015) 181801 [arXiv:1506.02661] [INSPIRE].
S. Fajfer and N. Košnik, Vector leptoquark resolution of R K and \( {R}_{D^{\left(*\right)}} \) puzzles, Phys. Lett. B 755 (2016) 270 [arXiv:1511.06024] [INSPIRE].
R. Barbieri, G. Isidori, A. Pattori and F. Senia, Anomalies in B-decays and U(2) flavour symmetry, Eur. Phys. J. C 76 (2016) 67 [arXiv:1512.01560] [INSPIRE].
S. Sahoo, R. Mohanta and A.K. Giri, Explaining the R K and \( {R}_{D^{\left(*\right)}} \) anomalies with vector leptoquarks, Phys. Rev. D 95 (2017) 035027 [arXiv:1609.04367] [INSPIRE].
G. Hiller, D. Loose and K. Schönwald, Leptoquark Flavor Patterns & B Decay Anomalies, JHEP 12 (2016) 027 [arXiv:1609.08895] [INSPIRE].
R. Barbieri, C.W. Murphy and F. Senia, B-decay Anomalies in a Composite Leptoquark Model, Eur. Phys. J. C 77 (2017) 8 [arXiv:1611.04930] [INSPIRE].
D. Buttazzo, A. Greljo, G. Isidori and D. Marzocca, B-physics anomalies: a guide to combined explanations, JHEP 11 (2017) 044 [arXiv:1706.07808] [INSPIRE].
L. Di Luzio, A. Greljo and M. Nardecchia, Gauge leptoquark as the origin of B-physics anomalies, Phys. Rev. D 96 (2017) 115011 [arXiv:1708.08450] [INSPIRE].
L. Calibbi, A. Crivellin and T. Li, A model of vector leptoquarks in view of the B-physics anomalies, arXiv:1709.00692 [INSPIRE].
J.M. Cline, B decay anomalies and dark matter from vectorlike confinement, Phys. Rev. D 97 (2018) 015013 [arXiv:1710.02140] [INSPIRE].
M. Bordone, C. Cornella, J. Fuentes-Martin and G. Isidori, A three-site gauge model for flavor hierarchies and flavor anomalies, Phys. Lett. B 779 (2018) 317 [arXiv:1712.01368] [INSPIRE].
M. Blanke and A. Crivellin, B Meson Anomalies in a Pati-Salam Model within the Randall-Sundrum Background, Phys. Rev. Lett. 121 (2018) 011801 [arXiv:1801.07256] [INSPIRE].
A. Azatov, D. Bardhan, D. Ghosh, F. Sgarlata and E. Venturini, Anatomy of b → cτν anomalies, arXiv:1805.03209 [INSPIRE].
M. Bordone, C. Cornella, J. Fuentes-Martín and G. Isidori, Low-energy signatures of the PS3 model: from B-physics anomalies to LFV, JHEP 10 (2018) 148 [arXiv:1805.09328] [INSPIRE].
S. Sahoo and R. Mohanta, Impact of vector leptoquark on \( \overline{B}\to {\overline{K}}^{\ast }{l}^{+}{l}^{-} \) anomalies, J. Phys. G 45 (2018) 085003 [arXiv:1806.01048] [INSPIRE].
BaBar collaboration, J.P. Lees et al., Search for \( B\ \to\ {K}^{\left(\ast \right)}\nu \overline{\nu} \) and invisible quarkonium decays, Phys. Rev. D 87 (2013) 112005 [arXiv:1303.7465] [INSPIRE].
Belle collaboration, O. Lutz et al., Search for \( B\to {h}^{\left(\ast \right)}\nu \overline{\nu} \) with the full Belle ϒ(4S) data sample, Phys. Rev. D 87 (2013) 111103 [arXiv:1303.3719] [INSPIRE].
A.J. Buras, J. Girrbach-Noe, C. Niehoff and D.M. Straub, \( B\to {K}^{\left(\ast \right)}\nu \overline{\nu} \) decays in the Standard Model and beyond, JHEP 02 (2015) 184 [arXiv:1409.4557] [INSPIRE].
Belle collaboration, Y. Miyazaki et al., Search for Lepton-Flavor-Violating tau Decays into a Lepton and a Vector Meson, Phys. Lett. B 699 (2011) 251 [arXiv:1101.0755] [INSPIRE].
Y. Kuno and Y. Okada, Muon decay and physics beyond the standard model, Rev. Mod. Phys. 73 (2001) 151 [hep-ph/9909265] [INSPIRE].
Z. Calcuttawala, A. Kundu, S. Nandi and S. Kumar Patra, New physics with the lepton flavor violating decay τ → 3μ, Phys. Rev. D 97 (2018) 095009 [arXiv:1802.09218] [INSPIRE].
K. Hayasaka et al., Search for Lepton Flavor Violating Tau Decays into Three Leptons with 719 Million Produced τ + τ − Pairs, Phys. Lett. B 687 (2010) 139 [arXiv:1001.3221] [INSPIRE].
A.K. Alok, B. Bhattacharya, D. Kumar, J. Kumar, D. London and S.U. Sankar, New physics in b → sμ + μ − : Distinguishing models through CP-violating effects, Phys. Rev. D 96 (2017) 015034 [arXiv:1703.09247] [INSPIRE].
T. Inami and C.S. Lim, Effects of Superheavy Quarks and Leptons in Low-Energy Weak Processes \( {K}_L\to \mu \overline{\mu},\kern0.5em {K}^{+}\to {\pi}^{+}\nu \overline{\nu}\kern0.5em and\kern0.5em {K}^0\leftrightarrow {\overline{K}}^0 \), Prog. Theor. Phys. 65 (1981) 297 [Erratum ibid. 65 (1981) 1772] [INSPIRE].
G. Buchalla, A.J. Buras and M.E. Lautenbacher, Weak decays beyond leading logarithms, Rev. Mod. Phys. 68 (1996) 1125 [hep-ph/9512380] [INSPIRE].
S. Alekhin, J. Blümlein and S. Moch, NLO PDFs from the ABMP16 fit, Eur. Phys. J. C 78 (2018) 477 [arXiv:1803.07537] [INSPIRE].
S. Aoki et al., Review of lattice results concerning low-energy particle physics, Eur. Phys. J. C 74 (2014) 2890 [arXiv:1310.8555] [INSPIRE].
S. Aoki et al., Review of lattice results concerning low-energy particle physics, Eur. Phys. J. C 77 (2017) 112 [arXiv:1607.00299] [INSPIRE].
Heavy Flavor Averaging Group (HFAG) collaboration, Y. Amhis et al., Averages of b-hadron, c-hadron and τ-lepton properties as of summer 2014, arXiv:1412.7515 [INSPIRE].
A. Hocker, H. Lacker, S. Laplace and F. Le Diberder, A New approach to a global fit of the CKM matrix, Eur. Phys. J. C 21 (2001) 225 [hep-ph/0104062] [INSPIRE].
CKMfitter Group collaboration, J. Charles et al., CP violation and the CKM matrix: Assessing the impact of the asymmetric B factories, Eur. Phys. J. C 41 (2005) 1 [hep-ph/0406184] [INSPIRE].
L. Di Luzio, M. Kirk and A. Lenz, Updated B s -mixing constraints on new physics models for b → sℓ + ℓ − anomalies, Phys. Rev. D 97 (2018) 095035 [arXiv:1712.06572] [INSPIRE].
D. Becirevic et al., \( {B}_d-{\overline{B}}_d \) mixing and the B d → J/ψK s asymmetry in general SUSY models, Nucl. Phys. B 634 (2002) 105 [hep-ph/0112303] [INSPIRE].
M. Ciuchini, E. Franco, V. Lubicz, G. Martinelli, I. Scimemi and L. Silvestrini, Next-to-leading order QCD corrections to ΔF = 2 effective Hamiltonians, Nucl. Phys. B 523 (1998) 501 [hep-ph/9711402] [INSPIRE].
A.J. Buras, M. Misiak and J. Urban, Two loop QCD anomalous dimensions of flavor changing four quark operators within and beyond the standard model, Nucl. Phys. B 586 (2000) 397 [hep-ph/0005183] [INSPIRE].
E. Gardi, G. Grunberg and M. Karliner, Can the QCD running coupling have a causal analyticity structure?, JHEP 07 (1998) 007 [hep-ph/9806462] [INSPIRE].
A. Deur, S.J. Brodsky and G.F. de Teramond, The QCD Running Coupling, Prog. Part. Nucl. Phys. 90 (2016) 1 [arXiv:1604.08082] [INSPIRE].
D. Barry, J.-Y. Parlange, L. Li, H. Prommer, C. Cunningham and F. Stagnitti, Analytical approximations for real values of the lambert w-function, Math. Comput. Simul. 53 (2000) 95.
M. Blanke, A.J. Buras and S. Recksiegel, Quark flavour observables in the Littlest Higgs model with T-parity after LHC Run 1, Eur. Phys. J. C 76 (2016) 182 [arXiv:1507.06316] [INSPIRE].
A.J. Buras and F. De Fazio, ε′/ε in 331 Models, JHEP 03 (2016) 010 [arXiv:1512.02869] [INSPIRE].
M. Tanimoto and K. Yamamoto, Probing SUSY with 10 TeV stop mass in rare decays and CP-violation of kaon, PTEP 2016 (2016) 123B02 [arXiv:1603.07960] [INSPIRE].
T. Kitahara, U. Nierste and P. Tremper, Supersymmetric Explanation of CP-violation in K →ππ Decays, Phys. Rev. Lett. 117 (2016) 091802 [arXiv:1604.07400] [INSPIRE].
M. Endo, S. Mishima, D. Ueda and K. Yamamoto, Chargino contributions in light of recent ϵ′/ϵ, Phys. Lett. B 762 (2016) 493 [arXiv:1608.01444] [INSPIRE].
C. Bobeth, A.J. Buras, A. Celis and M. Jung, Patterns of Flavour Violation in Models with Vector-Like Quarks, JHEP 04 (2017) 079 [arXiv:1609.04783] [INSPIRE].
M. Endo, T. Kitahara, S. Mishima and K. Yamamoto, Revisiting Kaon Physics in General Z Scenario, Phys. Lett. B 771 (2017) 37 [arXiv:1612.08839] [INSPIRE].
A. Crivellin, G. D’Ambrosio, T. Kitahara and U. Nierste, \( K\ \to \pi \nu \overline{\nu} \) in the MSSM in light of the ϵ ′ K /ϵK anomaly, Phys. Rev. D 96 (2017) 015023 [arXiv:1703.05786] [INSPIRE].
V. Chobanova et al., Probing SUSY effects in K 0 S → μ + μ −, JHEP 05 (2018) 024 [arXiv:1711.11030] [INSPIRE].
M. Endo, T. Goto, T. Kitahara, S. Mishima, D. Ueda and K. Yamamoto, Gluino-mediated electroweak penguin with flavor-violating trilinear couplings, JHEP 04 (2018) 019 [arXiv:1712.04959] [INSPIRE].
C. Bobeth and A.J. Buras, Leptoquarks meet ε′/ε and rare Kaon processes, JHEP 02 (2018) 101 [arXiv:1712.01295] [INSPIRE].
N. Haba, H. Umeeda and T. Yamada, ϵ′/ϵ Anomaly and Neutron EDM in SU(2)L × SU(2)R × U(1)B − L model with Charge Symmetry, JHEP 05 (2018) 052 [arXiv:1802.09903] [INSPIRE].
C.-H. Chen and T. Nomura, Re(ϵ ′ K /ϵK) and \( K\ \to \pi \nu \overline{\nu} \) in a two-Higgs doublet model, JHEP 08 (2018) 145 [arXiv:1804.06017] [INSPIRE].
C.-H. Chen and T. Nomura, ϵ′/ϵ from charged-Higgs-induced gluonic dipole operators, Phys. Lett. B 787 (2018) 182 [arXiv:1805.07522] [INSPIRE].
A.J. Buras, The Return of Kaon Flavour Physics, Acta Phys. Polon. B 49 (2018) 1043 [arXiv:1805.11096] [INSPIRE].
T. Blum et al., K → ππ ΔI = 3/2 decay amplitude in the continuum limit, Phys. Rev. D 91 (2015) 074502 [arXiv:1502.00263] [INSPIRE].
V. Cirigliano, G. Ecker, H. Neufeld and A. Pich, Isospin breaking in K → ππ decays, Eur. Phys. J. C 33 (2004) 369 [hep-ph/0310351] [INSPIRE].
S. Fajfer, N. Košnik and L. Vale Silva, Footprints of leptoquarks: from \( {R}_{K^{\left(*\right)}} \) to \( K\to \pi \nu \overline{\nu} \), Eur. Phys. J. C 78 (2018) 275 [arXiv:1802.00786] [INSPIRE].
A.J. Buras, F. De Fazio, J. Girrbach and M.V. Carlucci, The Anatomy of Quark Flavour Observables in 331 Models in the Flavour Precision Era, JHEP 02 (2013) 023 [arXiv:1211.1237] [INSPIRE].
A.J. Buras and J. Girrbach, Complete NLO QCD Corrections for Tree Level Delta F = 2 FCNC Processes, JHEP 03 (2012) 052 [arXiv:1201.1302] [INSPIRE].
A. Bazavov et al., Short-distance matrix elements for D 0 -meson mixing for N f = 2 + 1 lattice QCD, Phys. Rev. D 97 (2018) 034513 [arXiv:1706.04622] [INSPIRE].
E. Golowich, J. Hewett, S. Pakvasa and A.A. Petrov, Relating \( {D}^0\hbox{--} {\overline{D}}^0 \) Mixing and D 0 → ℓ + ℓ − with New Physics, Phys. Rev. D 79 (2009) 114030 [arXiv:0903.2830] [INSPIRE].
http://www.slac.stanford.edu/xorg/hflav/charm/CHARM18/results_mix_cpv.html.
A.L. Kagan and M.D. Sokoloff, On Indirect CP-violation and Implications for \( {D}^0-{\overline{D}}^0 \) and \( {B}_s-{\overline{B}}_s \) mixing, Phys. Rev. D 80 (2009) 076008 [arXiv:0907.3917] [INSPIRE].
Particle Data Group collaboration, M. Tanabashi et al., Review of Particle Physics, Phys. Rev. D 98 (2018) 030001 [INSPIRE].
E. Golowich and A.A. Petrov, Short distance analysis of \( {D}^0-{\overline{D}}^0 \) mixing, Phys. Lett. B 625 (2005) 53 [hep-ph/0506185] [INSPIRE].
A.F. Falk, Y. Grossman, Z. Ligeti, Y. Nir and A.A. Petrov, The \( {D}^0-{\overline{D}}^0 \) mass difference from a dispersion relation, Phys. Rev. D 69 (2004) 114021 [hep-ph/0402204] [INSPIRE].
A.F. Falk, Y. Grossman, Z. Ligeti and A.A. Petrov, SU(3) breaking and \( {D}^0-{\overline{D}}^0 \) mixing, Phys. Rev. D 65 (2002) 054034 [hep-ph/0110317] [INSPIRE].
E. Golowich, J. Hewett, S. Pakvasa and A.A. Petrov, Implications of \( {D}^0-{\overline{D}}^0 \) Mixing for New Physics, Phys. Rev. D 76 (2007) 095009 [arXiv:0705.3650] [INSPIRE].
E949 collaboration, A.V. Artamonov et al., New measurement of the \( {K}^{+}\to {\pi}^{+}\nu \overline{\nu} \) branching ratio, Phys. Rev. Lett. 101 (2008) 191802 [arXiv:0808.2459] [INSPIRE].
KOTO collaboration, J.K. Ahn et al., Search for the \( {K}_L\to {\pi}^0\nu \overline{\nu} \) and K L → π 0 X 0 decays at the J-PARC KOTO experiment, arXiv:1810.09655 [INSPIRE].
E391a collaboration, J.K. Ahn et al., Experimental study of the decay \( {K}_L^0\to {\pi}^0\nu \overline{\nu} \), Phys. Rev. D 81 (2010) 072004 [arXiv:0911.4789] [INSPIRE].
T. Kitahara, private communication.
NA62 collaboration, E. Cortina Gil et al., The Beam and detector of the NA62 experiment at CERN, 2017 JINST 12 P05025 [arXiv:1703.08501] [INSPIRE].
KOTO collaboration, J.K. Ahn et al., A new search for the \( {K}_L\to {\pi}^0\nu \overline{\nu} \) and K L → π 0 X 0 decays, PTEP 2017 (2017) 021C01 [arXiv:1609.03637] [INSPIRE].
S. Wehle, S. Yaschenko, C. Niebuhr and A. Ishikawa, private communication, Tech. Rep. (2017).
Y. Nomura, Status of KOTO experiment: \( {K}_L\to {\pi}^0\nu \overline{\nu} \) at J-PARC, talk at Heavy Quarks and Leptons 2018, Yamagata Terrsa, Japan, 27 May–1 June 2018.
ATLAS collaboration, Search for new high-mass phenomena in the dilepton final state using 36.1 fb −1 of proton-proton collision data at \( \sqrt{s}=13 \) TeV with the ATLAS detector, ATLAS-CONF-2017-027.
J. Pumplin, D.R. Stump, J. Huston, H.L. Lai, P.M. Nadolsky and W.K. Tung, New generation of parton distributions with uncertainties from global QCD analysis, JHEP 07 (2002) 012 [hep-ph/0201195] [INSPIRE].
D.B. Clark, E. Godat and F.I. Olness, ManeParse: A Mathematica reader for Parton Distribution Functions, Comput. Phys. Commun. 216 (2017) 126 [arXiv:1605.08012] [INSPIRE].
T. Hahn, CUBA: A Library for multidimensional numerical integration, Comput. Phys. Commun. 168 (2005) 78 [hep-ph/0404043] [INSPIRE].
F. Feruglio, P. Paradisi and A. Pattori, Revisiting Lepton Flavor Universality in B Decays, Phys. Rev. Lett. 118 (2017) 011801 [arXiv:1606.00524] [INSPIRE].
F. Feruglio, P. Paradisi and A. Pattori, On the Importance of Electroweak Corrections for B Anomalies, JHEP 09 (2017) 061 [arXiv:1705.00929] [INSPIRE].
A. Falkowski, M. González-Alonso and K. Mimouni, Compilation of low-energy constraints on 4-fermion operators in the SMEFT, JHEP 08 (2017) 123 [arXiv:1706.03783] [INSPIRE].
D. Aloni, A. Efrati, Y. Grossman and Y. Nir, ϒ and ψ leptonic decays as probes of solutions to the R (*) D puzzle, JHEP 06 (2017) 019 [arXiv:1702.07356] [INSPIRE].
CLEO collaboration, D. Besson et al., First Observation of ϒ(3S) → τ + τ − and Tests of Lepton Universality in ϒ Decays, Phys. Rev. Lett. 98 (2007) 052002 [hep-ex/0607019] [INSPIRE].
BaBar collaboration, P. del Amo Sanchez et al., Test of lepton universality in ϒ(1S) decays at BaBar, Phys. Rev. Lett. 104 (2010) 191801 [arXiv:1002.4358] [INSPIRE].
Z. Bai, N.H. Christ, T. Izubuchi, C.T. Sachrajda, A. Soni and J. Yu, K L − K S Mass Difference from Lattice QCD, Phys. Rev. Lett. 113 (2014) 112003 [arXiv:1406.0916] [INSPIRE].
B. Dumont, K. Nishiwaki and R. Watanabe, LHC constraints and prospects for S 1 scalar leptoquark explaining the \( \overline{B}\to {D}^{\left(\ast \right)}\tau \overline{\nu} \) anomaly, Phys. Rev. D 94 (2016) 034001 [arXiv:1603.05248] [INSPIRE].
Y. Takahashi, Leptoquark (LQ) searches in CMS, talk at The 53rd Rencontres de Moriond, La Thuile, 10–17 March 2018.
J. Kumar, D. London and R. Watanabe, Combined Explanations of the b → sμ + μ − and \( b\to c{\tau}^{-}\overline{\nu} \) Anomalies: a General Model Analysis, arXiv:1806.07403 [INSPIRE].
BaBar collaboration, J.P. Lees et al., A search for the decay modes B +− → h +−τ+− l, Phys. Rev. D 86 (2012) 012004 [arXiv:1204.2852] [INSPIRE].
BaBar collaboration, J.P. Lees et al., Search for Charged Lepton Flavor Violation in Narrow Upsilon Decays, Phys. Rev. Lett. 104 (2010) 151802 [arXiv:1001.1883] [INSPIRE].
MEG collaboration, A.M. Baldini et al., Search for the lepton flavour violating decay μ + → e+ γ with the full dataset of the MEG experiment, Eur. Phys. J. C 76 (2016) 434 [arXiv:1605.05081] [INSPIRE].
MEG II collaboration, A.M. Baldini et al., The design of the MEG II experiment, Eur. Phys. J. C 78 (2018) 380 [arXiv:1801.04688] [INSPIRE].
SINDRUM collaboration, U. Bellgardt et al., Search for the Decay μ + → e + e + e −, Nucl. Phys. B 299 (1988) 1 [INSPIRE].
D. Bečirević and O. Sumensari, A leptoquark model to accommodate R exp K < R SM K and R exp K * < R SM K * , JHEP 08 (2017) 104 [arXiv:1704.05835] [INSPIRE].
N. Carrasco et al., Leptonic decay constants f K , f D, and \( {f}_{D_s} \) with N f = 2 + 1 + 1 twisted-mass lattice QCD, Phys. Rev. D 91 (2015) 054507 [arXiv:1411.7908] [INSPIRE].
BNL collaboration, D. Ambrose et al., New limit on muon and electron lepton number violation from K 0 L → μ ± e ∓ decay, Phys. Rev. Lett. 81 (1998) 5734 [hep-ex/9811038] [INSPIRE].
A. Pich, Precision Tau Physics, Prog. Part. Nucl. Phys. 75 (2014) 41 [arXiv:1310.7922] [INSPIRE].
A. Abdesselam et al., Measurement of the τ lepton polarization in the decay \( \overline{B}\to {D}^{*}{\tau}^{-}{\overline{\nu}}_{\tau } \), arXiv:1608.06391 [INSPIRE].
Belle collaboration, A. Abdesselam et al., Precise determination of the CKM matrix element |V cb| with \( {\overline{B}}^0\to {D}^{\ast +}{\ell}^{-}{\overline{\nu}}_{\ell } \) decays with hadronic tagging at Belle, arXiv:1702.01521 [INSPIRE].
LHCb collaboration, Measurement of the ratio of branching fractions ℬ(B + c → J/ψτ + ντ)/ℬ(B + c → J/ψμ + νμ), Phys. Rev. Lett. 120 (2018) 121801 [arXiv:1711.05623] [INSPIRE].
BES collaboration, M. Ablikim et al., Search for the lepton flavor violation processes J/ψ → μτ and eτ, Phys. Lett. B 598 (2004) 172 [hep-ex/0406018] [INSPIRE].
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Matsuzaki, S., Nishiwaki, K. & Yamamoto, K. Simultaneous interpretation of K and B anomalies in terms of chiral-flavorful vectors. J. High Energ. Phys. 2018, 164 (2018). https://doi.org/10.1007/JHEP11(2018)164
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DOI: https://doi.org/10.1007/JHEP11(2018)164