Lepton masses and mixing in a two-Higgs-doublet model

Piotr, Chaber,; Dziewit, Bartosz; Holeczek, J.; Richter, Monika; Zrałek, M.; Zajac, S.

doi:10.1103/physrevd.98.055007

Cited by 14 publications

(23 citation statements)

References 35 publications

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“…The same conclusion is valid if one assumes that neutrinos have Majorana nature. In such a frame, the Yukawa interaction Lagrangian has to be rewritten in an appropriate way (see [11]) producing family symmetry condition in the form:…”

Section: Multi Higgs Doublet Descriptionmentioning

confidence: 99%

“…Non trivial mixing can be also achieved by extending the Higgs sector by additional multiplets (e.g., [8,9]). A proposal for the two Higgs doublet model (2HDM) [10] was widely discussed in [11]. In the most general situation, the mass generation mechanism allows couplings with various Higgs fields.…”

Section: Introductionmentioning

confidence: 99%

“…Theoretical proposals assuming the existence of two Higgs fields are not the only possible and potentially experimentally verifiable space for applying the symmetry implementation. In this paper, the methodology proposed previously for 2HDM only [11] is extended to any number of additional Higgs fields.…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, new forms of results, equivalent to [11], for 2HDM are given. The obtained results depend on many phases and we present here a more detailed discussion concerning relations between them.…”

Section: Introductionmentioning

confidence: 99%

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Family Symmetries and Multi Higgs Doublet Models

et al. 2020

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Imposing a family symmetry on the Standard Model in order to reduce the number of its free parameters, due to the Schur’s Lemma, requires an explicit breaking of this symmetry. To avoid the need for this symmetry to break, additional Higgs doublets can be introduced. In such an extension of the Standard Model, we investigate family symmetries of the Yukawa Lagrangian. We find that adding a second Higgs doublet (2HDM) does not help, at least for finite subgroups of the U ( 3 ) group up to the order of 1025.

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Section: Multi Higgs Doublet Descriptionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Family Symmetries and Multi Higgs Doublet Models

et al. 2020

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“…In order to address the above issues, there are many well motivated extensions of the SM like SUSY [14][15][16][17], two Higgs doublet model [18][19][20][21][22][23], extension of the SM with an extra U (1) gauge group [24][25][26][27] and many more. In this work, we have considered the gauged U (1) L µ −L τ extension of the SM due to its relatively simple theoretical structure and background free environment, which has a complete gauge group SU (3) C × SU (2) L × U (1) Y × U (1) L µ −L τ and is called the U (1) L µ −L τ model [28][29][30][31][32][33][34][35].…”

Section: Introductionmentioning

confidence: 99%

The signatures of the new particles $$h_{2}$$ and $$Z^{}_{\mu \tau }$$ at e-p colliders in the $${U(1)}_{L^{}_{\mu } - L^{}_{\tau } }$$ model

Hou

Yue

2019

Eur. Phys. J. C

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Considering the superior performances of the two future e-p colliders, LHeC and FCC-eh, we discuss the feasibility of detecting the additional neutral scalar h 2 and the light gauge boson Z µτ , which are predicted by the U (1) L µ −L τ model. Taking into account the experimental constraints on the relevant free parameters, we consider all possible production channels of h 2 and Z µτ at e-p colliders and further investigate their observability through the optimal channels in the case of the beam polarization P(e − )= -0.8. We find that the signal significance above 5σ of h 2 as well as Z µτ detecting can be achieved via e − p → e − jh 2 (→ Z µτ Z µτ ) → e − j + E T process and a 5σ sensitivity of Z µτ detecting can be gained via e − p → e − jh 1 (→ Z µτ Z µτ ) → e − j + E T process at e-p colliders with appropriate parameter values and a designed integrated luminosity. * the U (1) L µ −L τ model is that the anomaly cancellation does not require any extra chiral fermionic degrees of freedom. In this model, the breaking of L µ − L τ symmetry conduces to additional terms in the neutrino mass matrix, which offer an explanation for the neutrino masses and mixing simultaneously [34,35]. Besides, the scalar sector has been expanded by two additional complex scalar singlets (φ H and φ DM ) with nonzero L µ − L τ charge. The scalar φ DM can act as a viable DM candidate [36]. The other scalar φ H acquires a vacuum expectation value (VEV) v µτ and thereby making an additional neutral scalar h 2 product after spontaneous breaking of U (1) L µ −L τ , which indicates that h 2 has a mass of the same order with v µτ about 10 GeV -1000 GeV [33,37]. Owing to the significance of precise measurement of Higgs boson properties, many people are sparing no effort to search for the additional neutral scalars which can be produced and decay via their mixing with the SM-like Higgs boson h 1 [47].On the other hand, an extra neutral gauge boson Z µτ is also introduced and obtains a mass after spontaneous symmetry breaking of U (1) L µ −L τ . Z µτ does not couple to the SM quarks and the first generation leptons, which makes it immune to any restrictions coming from lepton and hadron colliders such as LEP and LHC. Therefore, the mass of Z µτ can be as light as 100 MeV for a low value of gauge coupling g µτ ≤ 10 −3 , which is required to meet the limits arising from neutrino trident production. The Z µτ with an MeV-scale mass can resolve the muon (g − 2) anomaly, explain the deficit of cosmic neutrino flux [34,39,40] and resolve the problem of relic abundance of DM in the scenario with a light weakly interacting massive particle [41-43] simultaneously. Therefore, searching for its possible collider evidences plays a vital role in exploring NP. Many attempts to discover this kind of new particles have been made in the meson decay experiment [44], beam dump experiment [45], electron-positron collider experiments [46] and so on.Searches for the new particles predicted by the U (1) L µ −L τ model are presently being conducted at the LHC and ILC [3...

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Lepton masses and mixings with broken μ−τ symmetry in a B – L extended 3HDM based on (Z
Vien
2024
Chinese Journal of Physics
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Lepton masses and mixing in a two-Higgs-doublet model

Cited by 14 publications

References 35 publications

Family Symmetries and Multi Higgs Doublet Models

Family Symmetries and Multi Higgs Doublet Models

The signatures of the new particles $$h_{2}$$ and $$Z^{}_{\mu \tau }$$ at e-p colliders in the $${U(1)}_{L^{}_{\mu } - L^{}_{\tau } }$$ model

Lepton masses and mixings with broken μ−τ symmetry in a B – L extended 3HDM based on (Z
Vien
2024
Chinese Journal of Physics
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0
0
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Lepton masses and mixing in a two-Higgs-doublet model

Cited by 14 publications

References 35 publications

Family Symmetries and Multi Higgs Doublet Models

Family Symmetries and Multi Higgs Doublet Models

The signatures of the new particles $$h_{2}$$ and $$Z^{}_{\mu \tau }$$ at e-p colliders in the $${U(1)}_{L^{}_{\mu } - L^{}_{\tau } }$$ model

Lepton masses and mixings with broken μ−τ symmetry in a B – L extended 3HDM based on (ZVien 2024Chinese Journal of Physics0000View full textAdd to dashboardCite

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Lepton masses and mixings with broken μ−τ symmetry in a B – L extended 3HDM based on (Z
Vien
2024
Chinese Journal of Physics
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