Flavor changing neutral current decays $$t\rightarrow c X$$ ($$X=\gamma ,\,g,\, Z,\, H$$) and $$t\rightarrow c{{\bar{\ell }}}\ell $$ ($$\ell =\mu ,\,\tau $$) via scalar leptoquarks

Bolaños, A.; Sánchez-Vélez, R.; Tavares‐Velasco, G.

doi:10.1140/epjc/s10052-019-7211-8

Cited by 11 publications

(8 citation statements)

References 60 publications

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“…[47,55] and more recently in Ref. [49] where constraints on the couplings to a lepton-quark pair were obtained through the analysis of the µAMDM and the LFV tau decay τ → µγ. We are interested in the contribution of the non-chiral leptoquark since it gives rise to a chirality-flippin term which is proportional to the internal quark mass that can enhance the Higgs boson decay h → τ µ.…”

Section: Theoretical Frameworkmentioning

confidence: 99%

“…We are interested in the contribution of the non-chiral leptoquark since it gives rise to a chirality-flippin term which is proportional to the internal quark mass that can enhance the Higgs boson decay h → τ µ. Although the complete expressions for the non-chiral LQ contribution to h → τ µ were obtained in [49], the aim of this work is the analysis of the signals events in the present and future colliders. For our calculations, we require the LQ couplings to fermions, the gauge bosons, and the Higgs boson, which can be obtained from the effective Lagrangians presented below.…”

Section: Theoretical Frameworkmentioning

confidence: 99%

“…The leptoquark doublet R 2 can give large contributions to the oblique parameters unless the mass eigenstates Ω 5/3 and Ω 2/3 have a small mass splitting [59], then we will assume the bound m Ω 5/3 ≥ 1 TeV in our analysis. On the other hand, the scalars LQs can considerably modify other loop-induced Higgs boson processes such as H → γγ and the production cross-section of the Higgs boson via the gluon fusion mechanism gg → H. In particular, for the model, we are interested in the leptoquarks Ω 5/3 and Ω 2/3 that contribute to the loop functions and the corresponding LQ coupling to the Higgs boson λ Ω = λ Ω 5/3 = λ Ω 2/3 can be constrained by the so-called Higgs boson coupling modifiers Such analysis was carried out in [49], where the coupling λ Ω can take values in the interval (−5, 5) for an LQ mass m Ω 5/3 = 1 TeV. For larger values of the LQ mass, the allowed area slightly increases, being of order O(10); how-ever, we will consider the conservative value: λ Ω = 4, which agrees with the perturbative limit.…”

Section: Constraints On the Parameter Space Of The Scalar Lq Modelmentioning

confidence: 99%

“…The LQs may or may not have well-define baryon (B) and lepton (L) number; however, those with violating interactions can mediate the proton decay unless an extra symmetry is invoked to forbid the diquark couplings, otherwise the leptoquark masses are expected to be at the Planck scale to ensure the stability of the proton [46]. The low-energy LQ phenomenology has received considerable attention, and possible LQ manifestation in various processes has been extensively investigated [47][48][49]. The LQs with left and righthanded couplings to fermions are interesting candidates to explain the discrepancy of the muon anomalous magnetic moment (µAMDM) since they induce an enhancement by a factor m t /m µ ∼ O (10 3 ) or m b /m µ ∼ O(10) compared to the SM.…”

Section: Introductionmentioning

confidence: 99%

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Lepton Flavor Violating $h\to\tau\mu$ decay induced by leptoquarks

Arroyo-Ureña

Gaitán

et al. 2021

Rev. Mex. Fís.

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The flavor changing neutral current decay $h\to\tau\mu$ is studied in a renormalizable scalar leptoquark model with no proton decay. Analytical expressions for the one-loop level contributions of a scalar leptoquark to the decay width of the process $h\to\tau\mu$ are presented. We find a viable model parameter space via the current constraints on the muon ($g-2$), the decay $\tau\to\mu\gamma$, the LHC Higgs boson data and the direct leptoquark searches at the LHC. Then, we evaluate branching ratio of the decay $h\to\tau\mu$induced by leptoquarks; we find that it is of the order of $10^{-8}-10^{-7}$ ($10^{-8}$; $10^{-9}-10^{-8}$)for a scalar leptoquark mass equal to $m_{\Omega_{5/3}}=1$ TeV ($m_{\Omega_{5/3}}=2$; $m_{\Omega_{5/3}}=10$ TeV). Finally, we evaluate the number of events produced at future hadron colliders from both the $h\to\tau\mu$ decay and the potential Standard Model background finding a potentialevidence for the $h\to\tau\mu$ decay.

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Section: Theoretical Frameworkmentioning

confidence: 99%

Section: Theoretical Frameworkmentioning

confidence: 99%

Section: Constraints On the Parameter Space Of The Scalar Lq Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Lepton Flavor Violating $h\to\tau\mu$ decay induced by leptoquarks

Arroyo-Ureña

Gaitán

et al. 2021

Rev. Mex. Fís.

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“…The top quark FCNC decays include the modes: t → cX, with X = h, Z, γ, g, which were calculated first in [4,5], and later on they were studied for other models [6][7][8][9][10][11][12][13][14] including its search at the LHC [15][16][17]. One can also consider the FCNC decays of heavy particles (H , Z ) that can decay into t c [18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Single top production via FCNC couplings at an $e^{-}e^{+}$ collider with center-of-mass energy $\sqrt{s}=240$ GeV

Arroyo-Ureña¹,

Díaz-Cruz²,

Gaitán³

et al. 2022

Preprint

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Aspects of top quark physics can be studied at a future Circular Electron-Positron Collider (CEPC). In particular, Flavor-Changing Neutral Current interactions (FCNC) of the top quark can be studied even with a center-ofmass energy from √ s m t to √ s = 240 GeV, through the production a single top quark in association with a charm quark, which can arise in several scenarios of new physics. We explore here this signal within the Left-Right Mirror Model, which is a Left-Right model that includes mirror fermions; this model is motivated as a possible solution to the strong CP problem and by its rich phenomenology. We find that for particular scenarios of the model parameters, which are in agreement with the most up-to-date experimental constraints, the signal coming from the process e + e − → V → tc (V = Z, Z ) provide a detectable signal and thus it can give evidence for FCNC interactions; in these scenarios the mass of a new neutral gauge boson can be as high as m Z = 7 TeV.

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Top quark flavor changing neutral currents at Future Linear Colliders

Jueid,

Kanemura

2024

EPJ Web Conf.

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We discuss the production and the decay of top quark through flavor-changing neutral current (FCNC) interaction at future linear colliders. We first discuss the theoretical predictions of top quark FCNC decays into qH and qZ within a class of t–channel simplified dark matter models. For the existing bounds on the top quark FCNC interactions at the Large Hadron Collider, we estimate the production rates of top quark through FCNC interactions at future linear colliders for energies from 250 GeV to 3 TeV.

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Flavor changing neutral current decays $$t\rightarrow c X$$ ($$X=\gamma ,\,g,\, Z,\, H$$) and $$t\rightarrow c{{\bar{\ell }}}\ell $$ ($$\ell =\mu ,\,\tau $$) via scalar leptoquarks

Cited by 11 publications

References 60 publications

Lepton Flavor Violating $h\to\tau\mu$ decay induced by leptoquarks

Lepton Flavor Violating $h\to\tau\mu$ decay induced by leptoquarks

Single top production via FCNC couplings at an $e^{-}e^{+}$ collider with center-of-mass energy $\sqrt{s}=240$ GeV

Top quark flavor changing neutral currents at Future Linear Colliders

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