A. Cerri et al., Report from Working Group 4: Opportunities in Flavour Physics at the HL-LHC and HE-LHC, CERN Yellow Rep. Monogr.7 (2019) 867 [arXiv:1812.07638] [INSPIRE]. Google Scholar
Belle-II collaboration, The Belle II Physics Book, PTEP2019 (2019) 123C01 [Erratum ibid.2020 (2020) 029201] [arXiv:1808.10567] [INSPIRE].
HFLAV collaboration, Averages of b-hadron, c-hadron, and τ -lepton properties as of 2018, arXiv:1909.12524 [INSPIRE].
Flavour Lattice Averaging Group collaboration, FLAG Review 2019: Flavour Lattice Averaging Group (FLAG), Eur. Phys. J. C80 (2020) 113 [arXiv:1902.08191] [INSPIRE].
J. Barranco, D. Delepine, V. Gonzalez Macias and L. Lopez-Lozano, Constraining New Physics with D meson decays, Phys. Lett. B731 (2014) 36 [arXiv:1303.3896] [INSPIRE]. ADS Google Scholar
S. Fajfer, I. Nisandzic and U. Rojec, Discerning new physics in charm meson leptonic and semileptonic decays, Phys. Rev. D91 (2015) 094009 [arXiv:1502.07488] [INSPIRE]. ADS Google Scholar
R. Fleischer, R. Jaarsma and G. Koole, Testing Lepton Flavour Universality with (Semi)-Leptonic D(s) Decays, Eur. Phys. J. C80 (2020) 153 [arXiv:1912.08641] [INSPIRE]. ADS Google Scholar
N. Carrasco et al., Leptonic decay constants fK, fD, and \( {f}_{D_s} \) with Nf = 2 + 1 + 1 twisted-mass lattice QCD, Phys. Rev. D91 (2015) 054507 [arXiv:1411.7908] [INSPIRE]. ADS Google Scholar
Fermilab Lattice, MILC and HPQCD collaborations, Semileptonic decays of D mesons in three-flavor lattice QCD, Phys. Rev. Lett.94 (2005) 011601 [hep-ph/0408306] [INSPIRE].
H. Na, C.T.H. Davies, E. Follana, G. Lepage and J. Shigemitsu, The D → K, lν Semileptonic Decay Scalar Form Factor and |Vcs| from Lattice QCD, Phys. Rev. D82 (2010) 114506 [arXiv:1008.4562] [INSPIRE]. ADS Google Scholar
H. Na, C.T.H. Davies, E. Follana, J. Koponen, G. Lepage and J. Shigemitsu, D → π, lν Semileptonic Decays, |Vcd| and 2_nd_ Row Unitarity from Lattice QCD, Phys. Rev. D84 (2011) 114505 [arXiv:1109.1501] [INSPIRE]. ADS Google Scholar
ETM collaboration, Scalar and vector form factors of D → π(K)ℓν decays with Nf = 2 + 1 + 1 twisted fermions, Phys. Rev. D96 (2017) 054514 [Erratum ibid.99 (2019) 099902] [Erratum ibid.100 (2019) 079901] [arXiv:1706.03017] [INSPIRE].
ETM collaboration, Tensor form factor of D → π(K)ℓν and D → π(K)ℓℓ decays with Nf = 2 + 1 + 1 twisted-mass fermions, Phys. Rev. D98 (2018) 014516 [arXiv:1803.04807] [INSPIRE].
G. Burdman, E. Golowich, J.L. Hewett and S. Pakvasa, Rare charm decays in the standard model and beyond, Phys. Rev. D66 (2002) 014009 [hep-ph/0112235] [INSPIRE].
A. Paul, I.I. Bigi and S. Recksiegel, On D → Xul+ l−within the Standard Model and Frameworks like the Littlest Higgs Model with T Parity, Phys. Rev. D83 (2011) 114006 [arXiv:1101.6053] [INSPIRE]. ADS Google Scholar
L. Cappiello, O. Catà and G. D’Ambrosio, _Standard Model prediction and new physics tests for D_0 → h+ h−ℓ+ ℓ− (h = π, K: ℓ = e, μ), JHEP04 (2013) 135 [arXiv:1209.4235] [INSPIRE]. ADS Google Scholar
S. de Boer and G. Hiller, Flavor and new physics opportunities with rare charm decays into leptons, Phys. Rev. D93 (2016) 074001 [arXiv:1510.00311] [INSPIRE]. ADS Google Scholar
R. Bause, M. Golz, G. Hiller and A. Tayduganov, The new physics reach of null tests with D → πℓℓ and Ds→ Kℓℓ decays, Eur. Phys. J. C80 (2020) 65 [arXiv:1909.11108] [INSPIRE]. ADS Google Scholar
S. Fajfer, Theoretical perspective on rare and radiative charm decays, in 7th International Workshop on Charm Physics, (2015) [arXiv:1509.01997] [INSPIRE]. Google Scholar
S. Fajfer and P. Singer, Long distance c → uγ effects in weak radiative decays of D mesons, Phys. Rev. D56 (1997) 4302 [hep-ph/9705327] [INSPIRE]. ADS Google Scholar
S. Fajfer, S. Prelovsek and P. Singer, Long distance contributions in D → Vγ decays, Eur. Phys. J. C6 (1999) 471 [hep-ph/9801279] [INSPIRE]. ADS Google Scholar
S. de Boer and G. Hiller, Rare radiative charm decays within the standard model and beyond, JHEP08 (2017) 091 [arXiv:1701.06392] [INSPIRE]. Google Scholar
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, Test of lepton universality using B+ → K + ℓ+ ℓ−decays, Phys. Rev. Lett.113 (2014) 151601 [arXiv:1406.6482] [INSPIRE].
LHCb collaboration, _Angular analysis of the B_0 _→ K_∗0 μ+ μ−decay using 3 fb _−_1 of integrated luminosity, JHEP02 (2016) 104 [arXiv:1512.04442] [INSPIRE].
LHCb collaboration, _Test of lepton universality with B_0 _→ K_∗0 ℓ+ ℓ−decays, JHEP08 (2017) 055 [arXiv:1705.05802] [INSPIRE].
LHCb collaboration, Search for lepton-universality violation in B+ → K + ℓ+ ℓ−decays, Phys. Rev. Lett.122 (2019) 191801 [arXiv:1903.09252] [INSPIRE].
BaBar collaboration, Evidence for an excess of \( \overline{B}\to {D}^{\left(\ast \right)}{\tau}^{-}{\overline{v}}_{\tau } \) decays, Phys. Rev. Lett.109 (2012) 101802 [arXiv:1205.5442] [INSPIRE].
Belle collaboration, Measurement of the branching ratio of \( \overline{B}\to {D}^{\left(\ast \right)}{\tau}^{-}{\overline{v}}_{\tau } \) relative to \( \overline{B}\to {D}^{\left(\ast \right)}{\mathrm{\ell}}^{-}{\overline{v}}_{\mathrm{\ell}} \) decays with hadronic tagging at Belle, Phys. Rev. D92 (2015) 072014 [arXiv:1507.03233] [INSPIRE].
LHCb collaboration, Measurement of the ratio of branching fractions \( \mathrm{\mathcal{B}}\left({\overline{B}}^0\to {D}^{\ast +}{\tau}^{-}{\overline{v}}_{\tau}\right)/\mathrm{\mathcal{B}}\left({\overline{B}}^0\to {D}^{\ast +}{\mu}^{-}{\overline{v}}_{\mu}\right) \), Phys. Rev. Lett.115 (2015) 111803 [Erratum ibid.115 (2015) 159901] [arXiv:1506.08614] [INSPIRE].
LHCb collaboration, Measurement of the ratio of branching fractions \( \mathrm{\mathcal{B}}\left({B}_c^{+}\to J/{\psi \tau}^{+}{v}_{\tau}\right)/\mathrm{\mathcal{B}}\left({B}_c^{+}\to J/{\psi \mu}^{+}{v}_{\mu}\right) \), Phys. Rev. Lett.120 (2018) 121801 [arXiv:1711.05623] [INSPIRE].
LHCb collaboration, _Measurement of the ratio of the B_0 → D_∗_−τ + ντ _and B_0 → D_∗_−μ+ νμbranching fractions using three-prong τ-lepton decays, Phys. Rev. Lett.120 (2018) 171802 [arXiv:1708.08856] [INSPIRE].
Belle collaboration, Measurement of ℛ(D) and ℛ(_D_∗) with a semileptonic tagging method, arXiv:1904.08794 [INSPIRE].
V. Cirigliano, M. Gonzalez-Alonso and M.L. Graesser, Non-standard Charged Current Interactions: beta decays versus the LHC, JHEP02 (2013) 046 [arXiv:1210.4553] [INSPIRE]. ADS Google Scholar
M. González-Alonso and J. Martin Camalich, Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays, JHEP12 (2016) 052 [arXiv:1605.07114] [INSPIRE]. ADS Google Scholar
V. Cirigliano, A. Falkowski, M. González-Alonso and A. Rodríguez-Sánchez, Hadronic τ Decays as New Physics Probes in the LHC Era, Phys. Rev. Lett.122 (2019) 221801 [arXiv:1809.01161] [INSPIRE]. ADS Google Scholar
D.A. Faroughy, A. Greljo and J.F. Kamenik, Confronting lepton flavor universality violation in B decays with high-pTtau lepton searches at LHC, Phys. Lett. B764 (2017) 126 [arXiv:1609.07138] [INSPIRE]. ADS Google Scholar
W. Altmannshofer, P.S. Bhupal Dev and A. Soni, \( {R}_{D^{\left(\ast \right)}} \) anomaly: A possible hint for natural supersymmetry with R-parity violation, Phys. Rev. D96 (2017) 095010 [arXiv:1704.06659] [INSPIRE]. Google Scholar
A. Greljo, J. Martin Camalich and J.D. Ruiz-Álvarez, Mono-τ Signatures at the LHC Constrain Explanations of B-decay Anomalies, Phys. Rev. Lett.122 (2019) 131803 [arXiv:1811.07920] [INSPIRE]. ADS Google Scholar
M.J. Baker, J. Fuentes-Martín, G. Isidori and M. König, High-pTsignatures in vector-leptoquark models, Eur. Phys. J. C79 (2019) 334 [arXiv:1901.10480] [INSPIRE]. ADS Google Scholar
B. Bhattacharya, R. Morgan, J. Osborne and A.A. Petrov, Studies of Lepton Flavor Violation at the LHC, Phys. Lett. B785 (2018) 165 [arXiv:1802.06082] [INSPIRE]. ADS Google Scholar
A. Angelescu, D.A. Faroughy and O. Sumensari, Lepton Flavor Violation and Dilepton Tails at the LHC, Eur. Phys. J. C80 (2020) 641 [arXiv:2002.05684] [INSPIRE]. ADS Google Scholar
Y. Cai and M.A. Schmidt, A Case Study of the Sensitivity to LFV Operators with Precision Measurements and the LHC, JHEP02 (2016) 176 [arXiv:1510.02486] [INSPIRE]. ADS Google Scholar
Y. Cai, M.A. Schmidt and G. Valencia, Lepton-flavour-violating gluonic operators: constraints from the LHC and low energy experiments, JHEP05 (2018) 143 [arXiv:1802.09822] [INSPIRE]. ADS Google Scholar
W. Buchmüller and D. Wyler, Effective Lagrangian Analysis of New Interactions and Flavor Conservation, Nucl. Phys. B268 (1986) 621 [INSPIRE]. ADS Google Scholar
B. Grzadkowski, M. Iskrzynski, M. Misiak and J. Rosiek, Dimension-Six Terms in the Standard Model Lagrangian, JHEP10 (2010) 085 [arXiv:1008.4884] [INSPIRE]. ADSMATH Google Scholar
E.E. Jenkins, A.V. Manohar and P. Stoffer, Low-Energy Effective Field Theory below the Electroweak Scale: Anomalous Dimensions, JHEP01 (2018) 084 [arXiv:1711.05270] [INSPIRE]. ADSMATH Google Scholar
R. Alonso, E.E. Jenkins, A.V. Manohar and M. Trott, Renormalization Group Evolution of the Standard Model Dimension Six Operators III: Gauge Coupling Dependence and Phenomenology, JHEP04 (2014) 159 [arXiv:1312.2014] [INSPIRE]. ADS Google Scholar
M. González-Alonso, J. Martin Camalich and K. Mimouni, Renormalization-group evolution of new physics contributions to (semi)leptonic meson decays, Phys. Lett. B772 (2017) 777 [arXiv:1706.00410] [INSPIRE]. ADS Google Scholar
A. Khodjamirian, T. Mannel and A.A. Petrov, Direct probes of flavor-changing neutral currents in e+ e−-collisions, JHEP11 (2015) 142 [arXiv:1509.07123] [INSPIRE]. ADS Google Scholar
Particle Data Group collaboration, Review of Particle Physics, Phys. Rev. D98 (2018) 030001 [INSPIRE].
BESIII collaboration, Precision measurements of B(D+ → μ+ νμ), the pseudoscalar decay constant \( {f}_{D^{+}} \), and the quark mixing matrix element |V_cd|_, Phys. Rev. D89 (2014) 051104 [arXiv:1312.0374] [INSPIRE].
Belle collaboration, Measurements of branching fractions of leptonic and hadronic \( {D}_s^{+} \) meson decays and extraction of the \( {D}_s^{+} \) meson decay constant, JHEP09 (2013) 139 [arXiv:1307.6240] [INSPIRE].
BESIII collaboration, Measurement of the \( {D}_s^{+} \) → ℓ+ νℓbranching fractions and the decay constant \( {f}_{D_s^{+}} \), Phys. Rev. D94 (2016) 072004 [arXiv:1608.06732] [INSPIRE].
BaBar collaboration, Measurement of the Absolute Branching Fractions for \( {D}_s^{-}\to {\mathrm{\ell}}^{-}{\overline{v}}_{\mathrm{\ell}} \) and Extraction of the Decay Constant \( {f}_{D_s} \), Phys. Rev. D82 (2010) 091103 [Erratum ibid.91 (2015) 019901] [arXiv:1008.4080] [INSPIRE].
CLEO collaboration, Measurement of \( {BD}_s^{+}\to {\mathrm{\ell}}^{+}v \) and the Decay Constant f \( {D}_s^{+} \) From 600 pb−_1_of e±Annihilation Data Near 4170 MeV, Phys. Rev. D79 (2009) 052001 [arXiv:0901.1216] [INSPIRE].
CLEO collaboration, Measurement of the Pseudoscalar Decay Constant fD(s) Using \( {D}_{(s)}^{+}\to {\tau}^{+}v,\kern0.5em {\tau}^{+}\to {\rho}^{+}\overline{v} \) Decays, Phys. Rev. D80 (2009) 112004 [arXiv:0910.3602] [INSPIRE].
Belle collaboration, Search for \( {D}^0\hbox{-} {\overline{D}}^0 \) mixing using semileptonic decays at Belle, Phys. Rev. D72 (2005) 071101 [hep-ex/0507020] [INSPIRE].
BESIII collaboration, _Study of the D_0 → K−μ+ νμ _dynamics and test of lepton flavor universality with D_0 → K−ℓ+ νℓdecays, Phys. Rev. Lett.122 (2019) 011804 [arXiv:1810.03127] [INSPIRE].
Belle collaboration, _Measurement of D_0 → πℓν (Kℓν) Form Factors and Absolute Branching Fractions, Phys. Rev. Lett.97 (2006) 061804 [hep-ex/0604049] [INSPIRE].
CLEO collaboration, Improved measurements of D meson semileptonic decays to pi and K mesons, Phys. Rev. D80 (2009) 032005 [arXiv:0906.2983] [INSPIRE].
BESIII collaboration, _Measurement of the branching fraction for the semi-leptonic decay D_0(+) → π−(0) μ+ νμand test of lepton universality, Phys. Rev. Lett.121 (2018) 171803 [arXiv:1802.05492] [INSPIRE].
J. de Blas, M. Chala and J. Santiago, Global Constraints on Lepton-Quark Contact Interactions, Phys. Rev. D88 (2013) 095011 [arXiv:1307.5068] [INSPIRE]. ADS Google Scholar
M. Farina, G. Panico, D. Pappadopulo, J.T. Ruderman, R. Torre and A. Wulzer, Energy helps accuracy: electroweak precision tests at hadron colliders, Phys. Lett. B772 (2017) 210 [arXiv:1609.08157] [INSPIRE]. ADS Google Scholar
S. Alioli, M. Farina, D. Pappadopulo and J.T. Ruderman, Catching a New Force by the Tail, Phys. Rev. Lett.120 (2018) 101801 [arXiv:1712.02347] [INSPIRE]. ADS Google Scholar
S. Dawson, P.P. Giardino and A. Ismail, Standard model EFT and the Drell-Yan process at high energy, Phys. Rev. D99 (2019) 035044 [arXiv:1811.12260] [INSPIRE]. ADS Google Scholar
G. Brooijmans et al., Les Houches 2019 Physics at TeV Colliders: New Physics Working Group Report, in 11th Les Houches Workshop on Physics at TeV Colliders: PhysTeV Les Houches, (2020) [arXiv:2002.12220] [INSPIRE]. Google Scholar
L.A. Harland-Lang, A.D. Martin, P. Motylinski and R.S. Thorne, Parton distributions in the LHC era: MMHT 2014 PDFs, Eur. Phys. J. C75 (2015) 204 [arXiv:1412.3989] [INSPIRE]. ADS Google Scholar
A. Gehrmann-De Ridder, T. Gehrmann, E.W.N. Glover, A. Huss and T.A. Morgan, The NNLO QCD corrections to Z boson production at large transverse momentum, JHEP07 (2016) 133 [arXiv:1605.04295] [INSPIRE]. ADS Google Scholar
S. Dittmaier and M. Huber, Radiative corrections to the neutral-current Drell-Yan process in the Standard Model and its minimal supersymmetric extension, JHEP01 (2010) 060 [arXiv:0911.2329] [INSPIRE]. ADSMATH Google Scholar
NNPDF collaboration, Parton distributions from high-precision collider data, Eur. Phys. J. C77 (2017) 663 [arXiv:1706.00428] [INSPIRE].
R. Abdul Khalek, S. Bailey, J. Gao, L. Harland-Lang and J. Rojo, Towards Ultimate Parton Distributions at the High-Luminosity LHC, Eur. Phys. J. C78 (2018) 962 [arXiv:1810.03639] [INSPIRE]. ADS Google Scholar
S. Carrazza, C. Degrande, S. Iranipour, J. Rojo and M. Ubiali, Can New Physics hide inside the proton?, Phys. Rev. Lett.123 (2019) 132001 [arXiv:1905.05215] [INSPIRE]. ADS Google Scholar
ATLAS collaboration, Search for High-Mass Resonances Decaying to τν in pp Collisions at \( \sqrt{s} \) = 13 TeV with the ATLAS Detector, Phys. Rev. Lett.120 (2018) 161802 [arXiv:1801.06992] [INSPIRE].
CMS collaboration, Search for a W’ boson decaying to a τ lepton and a neutrino in proton-proton collisions at \( \sqrt{s} \) = 13 TeV, Phys. Lett. B792 (2019) 107 [arXiv:1807.11421] [INSPIRE].
ATLAS collaboration, Search for a heavy charged boson in events with a charged lepton and missing transverse momentum from pp collisions at \( \sqrt{s} \) = 13 TeV with the ATLAS detector, Phys. Rev. D100 (2019) 052013 [arXiv:1906.05609] [INSPIRE].
CMS collaboration, Search for high-mass resonances in final states with a lepton and missing transverse momentum at \( \sqrt{s} \) = 13 TeV, JHEP06 (2018) 128 [arXiv:1803.11133] [INSPIRE].
A. Alloul, N.D. Christensen, C. Degrande, C. Duhr and B. Fuks, FeynRules 2.0 — A complete toolbox for tree-level phenomenology, Comput. Phys. Commun.185 (2014) 2250 [arXiv:1310.1921] [INSPIRE]. ADS Google Scholar
J. Alwall et al., The automated computation of tree-level and next-to-leading order differential cross sections, and their matching to parton shower simulations, JHEP07 (2014) 079 [arXiv:1405.0301] [INSPIRE]. ADS Google Scholar
DELPHES 3 collaboration, DELPHES 3, A modular framework for fast simulation of a generic collider experiment, JHEP02 (2014) 057 [arXiv:1307.6346] [INSPIRE].
R. Brun and F. Rademakers, ROOT: An object oriented data analysis framework, Nucl. Instrum. Meth. A389 (1997) 81 [INSPIRE]. ADS Google Scholar
A.L. Read, Presentation of search results: The CL(s) technique, J. Phys. G28 (2002) 2693 [INSPIRE]. ADS Google Scholar
T. Junk, Confidence level computation for combining searches with small statistics, Nucl. Instrum. Meth. A434 (1999) 435 [hep-ex/9902006] [INSPIRE]. ADS Google Scholar
D. Buttazzo, A. Greljo, G. Isidori and D. Marzocca, Toward a coherent solution of diphoton and flavor anomalies, JHEP08 (2016) 035 [arXiv:1604.03940] [INSPIRE]. ADS Google Scholar
A. Falkowski, M. Gonzalez-Alonso, A. Greljo and D. Marzocca, Global constraints on anomalous triple gauge couplings in effective field theory approach, Phys. Rev. Lett.116 (2016) 011801 [arXiv:1508.00581] [INSPIRE]. ADS Google Scholar
A. Falkowski, M. González-Alonso and K. Mimouni, Compilation of low-energy constraints on 4-fermion operators in the SMEFT, JHEP08 (2017) 123 [arXiv:1706.03783] [INSPIRE]. ADS Google Scholar
S. de Boer, B. Müller and D. Seidel, Higher-order Wilson coefficients for c → u transitions in the standard model, JHEP08 (2016) 091 [arXiv:1606.05521] [INSPIRE]. Google Scholar
R. Alonso, B. Grinstein and J. Martin Camalich, SU(2) × U(1) gauge invariance and the shape of new physics in rare B decays, Phys. Rev. Lett.113 (2014) 241802 [arXiv:1407.7044] [INSPIRE]. ADS Google Scholar
BaBar collaboration, Searches for Rare or Forbidden Semileptonic Charm Decays, Phys. Rev. D84 (2011) 072006 [arXiv:1107.4465] [INSPIRE].
S. Meinel, Λ_c_ → N form factors from lattice QCD and phenomenology of Λ_c_ → nℓ+ νℓand Λ_c_ → pμ+ μ−decays, Phys. Rev. D97 (2018) 034511 [arXiv:1712.05783] [INSPIRE]. ADS Google Scholar
CMS collaboration, Search for a narrow resonance in high-mass dilepton final states in proton-proton collisions using 140 fb _−_1 of data at \( \sqrt{s} \) = 13 TeV, Tech. Rep. CMS-PAS-EXO-19-019 (2019).
ATLAS collaboration, Search for additional heavy neutral Higgs and gauge bosons in the ditau final state produced in 36 fb _−_1 of pp collisions at \( \sqrt{s} \) = 13 TeV with the ATLAS detector, JHEP01 (2018) 055 [arXiv:1709.07242] [INSPIRE].
ALEPH, DELPHI, L3, OPAL and LEP Electroweak collaborations, Electroweak Measurements in Electron-Positron Collisions at W-Boson-Pair Energies at LEP, Phys. Rept.532 (2013) 119 [arXiv:1302.3415] [INSPIRE].
W. Dekens, J. de Vries, M. Jung and K.K. Vos, The phenomenology of electric dipole moments in models of scalar leptoquarks, JHEP01 (2019) 069 [arXiv:1809.09114] [INSPIRE]. ADS Google Scholar
K. Fuyuto, M. Ramsey-Musolf and T. Shen, Electric Dipole Moments from CP-Violating Scalar Leptoquark Interactions, Phys. Lett. B788 (2019) 52 [arXiv:1804.01137] [INSPIRE]. ADS Google Scholar
W. Altmannshofer, S. Gori, H.H. Patel, S. Profumo and D. Tuckler, Electric dipole moments in a leptoquark scenario for the B-physics anomalies, JHEP05 (2020) 069 [arXiv:2002.01400] [INSPIRE]. ADS Google Scholar
BaBar collaboration, Search for B+ → K + τ + τ−at the BaBar experiment, Phys. Rev. Lett.118 (2017) 031802 [arXiv:1605.09637] [INSPIRE].
C. Cornella, G. Isidori, M. König, S. Liechti, P. Owen and N. Serra, Hunting for B+ → K + τ + τ−imprints on the B+ → K + μ+ μ−dimuon spectrum, arXiv:2001.04470 [INSPIRE].
P. Asadi, M.R. Buckley and D. Shih, It’s all right(-handed neutrinos): a new W′ model for the \( {R}_{D^{\left(\ast \right)}} \) anomaly, JHEP09 (2018) 010 [arXiv:1804.04135] [INSPIRE]. ADS Google Scholar