Lepton Number Violation: Seesaw Models and Their Collider Tests

Cai, Yi-Fu; Han, Tao; Li, Tong; Ruiz, Richard

doi:10.3389/fphy.2018.00040

Cited by 261 publications

(245 citation statements)

References 505 publications

(949 reference statements)

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“…For instance, at colliders, there are several possible signatures of lepton number violation [14][15][16][17][18][19][20]. As pointed out in several analyses, neutrino Majorana phases can also give rise to non-vanishing contributions to charged lepton electric dipole moments (EDMs) [21]; in particular, the computation of EDMs in the presence of right-handed neutrinos (like in the Type-I seesaw model) has been addressed in refs.…”

Section: Jhep04(2018)030mentioning

confidence: 99%

Electric dipole moments in the minimal scotogenic model

Abada

Toma

2018

J. High Energ. Phys.

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In this work we consider a minimal version of the scotogenic model capable of accounting for an electron electric dipole moment within experimental sensitivity reach in addition to providing a dark matter candidate and radiatively generating neutrino masses. The Standard Model is minimally extended by two sterile fermions and one inert scalar doublet, both having odd parity, while the Standard Model particles have an even parity, imposed by a Z 2 symmetry. The neutrino Yukawa couplings provide additional sources of CP violation, and thus a possible impact on electric dipole moments of charged leptons. This model provides two possible dark matter candidates (one bosonic and one fermionic) and our results show that, independently of the ordering of the generated light neutrino spectrum, one can have sizeable electron electric dipole moment within ACME sensitivity reach in the case of fermionic dark matter candidate.

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Section: Jhep04(2018)030mentioning

confidence: 99%

Electric dipole moments in the minimal scotogenic model

Abada

Toma

2018

J. High Energ. Phys.

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“…Note that, other than the pair-production by DY, the photon fusion can also contribute to the pair-production of doubly charged Higgs. It has been pointed out in [52], that for 13 TeV, the channel contributes at most 10% to the pair-production of doubly charged Higgs states. However, there are different issues, regarding large uncertainties in PDFs.…”

Section: Maximum Value Of Br(hmentioning

confidence: 99%

Probing doubly and singly charged Higgs bosons at the pp collider HE-LHC

et al. 2020

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We analyse the signal sensitivity of multi-lepton final states at collider that can arise from doubly and singly charged Higgs decay in a type-II seesaw framework. We assume triplet vev to be very small and degenerate masses for both the charged Higgs states. The leptonic branching ratio of doubly and singly charged Higgs states have a large dependency on the neutrino oscillation parameters, lightest neutrino mass scale, as well as neutrino mass hierarchy.We explore this as well as the relation between the leptonic branching ratios of the singly and doubly charged Higgs states in detail. We evaluate the effect of these uncertainties on the production cross-section. Finally, we present a detailed analysis of multi-lepton final states for a future hadron collider HE-LHC, that can operate with center of mass energy √ s = 27 TeV.

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“…For comprehensive reviews, we refer to Refs. [14,36]. Current experimental searches by both the ATLAS and CMS collaborations report 95% confidence level (CL) exclusion limits on triplet scalar masses up to about 400 GeV in multileptonic channels [37,38] and about 200 GeV in bosonic channels [39], assuming a degenerate mass spectrum.…”

Section: Introductionmentioning

confidence: 99%

Doubly charged Higgs boson production at hadron colliders

2020

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We present a systematic comparison of doubly charged Higgs boson production mechanisms at hadron colliders in the context of the Type II Seesaw model, emphasizing the importance of the higher-order corrections and subdominant channels. We consider the Drell-Yan channel at nextto-leading order in QCD, production via photon fusion at the leading order, gluon fusion with resummation of the threshold logarithms up to next-to-next-to-next-to-leading logarithmic accuracy, and same-sign weak boson fusion at next-to-leading order in QCD. For the Drell-Yan process, we study the impact of a static jet veto at next-to-leading-order matched to the resummation of jet veto scale logarithms at next-to-next-to-leading logarithmic accuracy. For the photon fusion channel, the dependence on modeling photon parton distribution functions is definitively assessed. To model vector boson fusion at next-to-leading order, we include all interfering topologies at O(α 4 ) and propose a method for introducing generator-level cuts within the MC@NLO formalism. Our results are obtained using a Monte Carlo tool chain linking the FeynRules, NloCT and Mad-Graph5 aMC@NLO programs and have necessitated the development of new, publicly available, Universal FeynRules Output libraries that encode the interactions between the Type II Seesaw scalars and the Standard Model particles. Libraries are compatible with both the normal and inverted ordering of the Majorana neutrino masses.

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Lepton Number Violation: Seesaw Models and Their Collider Tests

Cited by 261 publications

References 505 publications

Electric dipole moments in the minimal scotogenic model

Electric dipole moments in the minimal scotogenic model

Probing doubly and singly charged Higgs bosons at the pp collider HE-LHC

Doubly charged Higgs boson production at hadron colliders

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