Minimal spin-one isotriplet dark matter

Belyaev, A.; Cacciapaglia, Giacomo; McKay, James; Marin, Dixon; Zerwekh, Alfonso R.

doi:10.1103/physrevd.99.115003

Cited by 28 publications

(28 citation statements)

References 79 publications

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“…The scalar sector of the IDM contains 1 inert doublet, which is Z 2 -odd, does not develop a Vacuum Expectation Value (VEV) and does not couple to fermions, and 1 active Z 2 -even Higgs doublet, which has a non-zero VEV and couples to fermions in the same way as the SM Higgs doublet, hence also referred to as I(1+1)HDM. The IDM, however constrained, is a viable model that can provide a viable DM candidate (see the latest analyses, e.g., in [8,9,10,11]). However, due to the imposed exact Z 2 symmetry, all parameters in the potential are real and there is no room for additional sources of CP-violation.…”

Section: Introductionmentioning

confidence: 99%

Lepton collider indirect signatures of dark CP-violation

et al. 2020

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We study an extension of the Standard Model (SM) in which two copies of the SM-Higgs doublet which do not acquire a vacuum expectation value, and hence are inert, are added to the scalar sector. The lightest particle from the inert sector, which is protected from decaying to SM particles through the conservation of a Z 2 symmetry, is a viable dark matter candidate. We allow for CP-violation in this extended dark sector and evaluate the ZZZ vertex and its CP-violating form factor in several benchmark scenarios. We provide collider signatures of this dark CP-violation in the form of potentially observable asymmetries and cross sections for the ff → Z * → ZZ process at both leptonic and hadronic machines. *

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Section: Introductionmentioning

confidence: 99%

Lepton collider indirect signatures of dark CP-violation

et al. 2020

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“…Production of D + in pairs or in association with DM leads then to the typical signature from charged LLP: disappearing charged track (DCT) as soon as the track from LLP is long enough (from few cm to a meter). In case of such signature the S/B ratio is much higher than in case of mono-jet signal and therefore, substantially bigger DM masses can be probed with charged LLPs from DM sector [34][35][36]. As an example, we would like to present here results for the minimal vector triplet DM (V 0 ) model [36] which predicts the right amount of DM for M DM in the 3-4 TeV range depending on DM coupling to the Higgs boson.…”

Section: Beyond Mono-x Signaturementioning

confidence: 94%

“…The mass split, M, between V 0 and V ± is generated radiatively and its value is just above the pion mass which makes V ± long lived. In Figure 6 we present M as a function of M V , which was calculated in Belyaev et al [36].…”

Section: Beyond Mono-x Signaturementioning

confidence: 97%

“…(2) L ) and Z 2 symmetry is imposed (which links the quartic V coupling to the gauge coupling constant and makes theory unitary is unitary before EW symmetry breaking and in the absence of the Higgs boson as found in Zerwekh [37]) then Lagrangian can be written as: The solid black line is the one-loop mass splitting, with all higher order terms truncated [36]. [36].…”

Section: Beyond Mono-x Signaturementioning

confidence: 99%

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Decoding the Nature of Dark Matter at Current and Future Experiments

Belyaev

2019

Front. Phys.

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Determination of the nature of Dark Matter (DM) is one of the most fundamental problems of particle physics and cosmology. If DM is light enough and interacts with Standard Model particles directly or via some mediators with a strength beyond the gravitational one, it can be probed at particle accelerators or in complementary direct and indirect DM searches in non-collider experiments. In the absence of such signals at present we can prepare ourselves for its discovery and identification. Generic signature from DM produced in particles collisions is missing transverse energy, MET, originating from DM particles escaping detector. Using effective field theory approach one can show that, depending on the structure and DM spin, effective operators have different MET distributions. This provides potential to distinguish certain classes of effective field theory (EFT) operators and related spin of DM at the LHC. This observation can be directly applied to theories beyond EFT paradigm as we demonstrate for Supersymmetry and inert two Higgs doublet model (i2HDM) as two examples. At the same time direct and indirect DM searches strongly complement collider searches for DM with large masses and pointing that collider and non-collider DM searches have unique power to probe the nature of Dark Matter. We also highlight prospects of new collider signature from DM such as disappearing charge tracks which are characteristic for wide class of DM theories. Finally, we advocate the importance of the joint framework which would join efforts of HEP community and allow to effectively identify the underlying theory of DM.

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“…However, it has been shown that vector bosons may perfectly play the role of dark matter, most of them motivated from hidden gauge sectors [15][16][17][18][19][20][21][22][23][24], extra large dimensions [25], little Higgs model [26] and from a linear sigma model [27]. Recently, the neutral component of an electroweak vector multiplet has been shown to be a good dark matter candidate, such as multiplets transforming in the adjoint representation [28], and in the fundamental one in the context of 331 models [29,30] and in Gauge-Higgs unification framework [31].…”

Section: Introductionmentioning

confidence: 99%

Dark matter from a vector field in the fundamental representation ofSU(2)L

2019

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We explore an extension to the Standard Model which incorporates a vector field in the fundamental representation of SUð2Þ L as the only nonstandard degree of freedom. This kind of field may appear in different scenarios such as compositeness, gauge-Higgs unification, and extradimensional scenarios. We study the model in which a Z 2 symmetry is manifiest, making the neutral CP-even component of the new vector field a vectorial dark matter candidate. We constraint the parameter space through LEP and LHC data, as well as from current dark matter searches. Additionally, comments on the implications of perturbative unitarity are presented. We find that the model is highly constrained but a small region of the parameter space can provide a viable DM candidate. On the other hand, unitarity demands an UV completion at an scale below 10 TeV. Finally we contrast our predictions on mono-jet,-Z,-Higgs production with the ones obtained in the inert two Higgs doublet model.

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Minimal spin-one isotriplet dark matter

Cited by 28 publications

References 79 publications

Lepton collider indirect signatures of dark CP-violation

Lepton collider indirect signatures of dark CP-violation

Decoding the Nature of Dark Matter at Current and Future Experiments

Dark matter from a vector field in the fundamental representation ofSU(2)L

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