Dark Matter Constraints and the Neutralino Sector of the scNMSSM

Aldufeery, Elham; Binjonaid, Maien

doi:10.3390/universe7020031

Cited by 6 publications

(3 citation statements)

References 67 publications

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“…Through the Z boson, the heavier neutalino decays to a lighter neutralino, and through the W boson, it decays to a light chargino [15]. The lightest neutralino is the lightest supersymmetric particle (LSP) which is stable when R-parity conserved [16], and consider the basic of Weakly Interacting Massive Particles (WIMPs) which makes up the universe's cold dark matter…”

Section: (1)mentioning

confidence: 99%

Formation Charginos and Dark matter from electron- positron annihilation

Helmy,

amein,

Ahmed

2023

Arab Journal of Nuclear Sciences and Applications

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and the cross sections for this interaction calculated by Feynman rules when 𝜸 ° is the propagator, and 𝝌 ̃𝓵 𝟎 is a leg from (𝒆 − ) or from (𝒆 + ) where 𝒊, 𝒋 = 𝟏, 𝟐, 𝒂𝒏𝒅 𝓵 = 𝟏, 𝟐, 𝟑, 𝟒. There are (128) different possible situations. The cross-sections σ (pb) calculated and graphed as a function of S (GeV) (center of mass energy) based on (MSSM), The mechanisms of Feynman diagram can be detected as:

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Section: (1)mentioning

confidence: 99%

Formation Charginos and Dark matter from electron- positron annihilation

Helmy,

amein,

Ahmed

2023

Arab Journal of Nuclear Sciences and Applications

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“…Chargino are composed of Winos (𝑊 + , 𝑊 − ) and Higgsinos (𝐻 + , 𝐻 − ) [17,18]. In nature, neutralino dark matter is experimentally investigated indirect through the use of γ ray and neutrino telescopes or directly through the utilizing laboratory experiment like those of Cryogenic dark matter search (CDMS) [19,20].…”

Section: Properties Of Charginomentioning

confidence: 99%

Investigation of production of neutral Higgs boson and two charged charginos from electron-positron annihilation via different propagators

Hassan

Amein²,

Yehia

et al. 2023

Arab Journal of Nuclear Sciences and Applications

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In the current work, the production of neutral Higgs boson (H ℓ °) and two charged Charginos (χ ̃i + , χ ̃j − ) owing to electron-positron annihilation via different propagators for the process e − (p 1 ) + e + (p 3 ) → χ ̃i + (p 2 ) + χ ̃j − (p 4 ) + H ℓ °(p 5 ) were investigated and in the Minimal Supersymmetric Standard Model (MSSM), the cross sections for this interaction were estimated. Five groups of 240 probabilities from Feynman diagrams are taken by different propagators. Group (I) when h o and Z o bosons are propagators, Group (II) when Z o and h o bosons are propagators, Group (III) when h o and h o (Lightest Higgs boson) bosons are propagators, Group (IV) Z o and Z o bosons are propagators and Group (V) χ ̃o and Z o boson arepropagators where i = j = 1,2 and ℓ = 1,2,3.The process's production cross-sections as a function of mass center energy were calculated, and the best cross-section was based on all considerations of the (MSSM) was determined, the process's mechanisms can be identified as:𝑒 − (𝑃 1 ) + 𝑒 + (𝑃 3 ) → 𝑍 𝑜 (𝑃 1 + 𝑃 3 ) → 𝑍 𝑜 (𝑃 2 + 𝑃 4 ) → 𝜒 ̃𝑖 + (𝑝 2 ) + 𝜒 ̃𝑗 − (𝑝 4 ) in group IV 𝑒 − (𝑃 1 ) + 𝑒 + (𝑃 3 ) → 𝑍 𝑜 (𝑃 1 + 𝑃 3 ) → ℎ 𝑜 (𝑃 2 + 𝑃 4 ) → 𝜒 ̃𝑖 + (𝑝 2 ) + 𝜒 ̃𝑗 − (𝑝 4 ) in group II.𝑒 − (𝑃 1 ) + 𝑒 + (𝑃 3 ) → ℎ 𝑜 (𝑃 1 + 𝑃 3 ) → ℎ 𝑜 (𝑃 2 + 𝑃 4 ) → 𝜒 ̃𝑖 + (𝑝 2 ) + 𝜒 ̃𝑗 − (𝑝 4 ) in group III 𝑒 − (𝑃 1 ) + 𝑒 + (𝑃 3 ) → χ ̃𝑜(𝑃 1 + 𝑃 3 ) → 𝑍 𝑜 (𝑃 2 + 𝑃 4 ) → 𝜒 ̃𝑖 + (𝑝 2 ) + 𝜒 ̃𝑗 − (𝑝 4 ) in group V 𝑒 − (𝑃 1 ) + 𝑒 + (𝑃 3 ) → ℎ 𝑜 (𝑃 1 + 𝑃 3 ) → 𝑍 𝑜 (𝑃 2 + 𝑃 4 ) → 𝜒 ̃𝑖 + (𝑝 2 ) + 𝜒 ̃𝑗 − (𝑝 4 ) in group I.At S interval (1600-3500) Gev, the best value of σ is ( 7.3934 × 10 −4 ) Pb in-group (IV).When masses of Charginos are m 𝜒 ̃𝑗 − = 900 GeV, m 𝜒 ̃𝑖 + = 700GeV and mass of neutral Higgs boson is m 𝐻 ℓ ° = 140 GeV

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“…To know the effects of these constraints on the NMSSM parameter space, see, for example, Ref. [62] and references therein.…”

Section: Advances In High Energy Physicsmentioning

confidence: 99%

LHC Signals of the Next-to-Lightest Scalar Higgs State of the NMSSM in the $4 τ$ Decay Channel

Almarashi

2021

Advances in High Energy Physics

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We study the a 1 a 1 and Z a 1 decay channels of the next-to-lightest CP-even Higgs boson h 2 of the NMSSM at the LHC, where the h 2 is produced in gluon fusion. It is found that while the h 2 discovery is impossible through the latter channel, the former one in the 4 τ final state is a promising channel to discover the h 2 with masses up to around 250 GeV at the LHC. Such a discovery of the h 2 is mostly accompanied with a light a 1 , which is a clear evidence for distinguishing the NMSSM from the MSSM since such a light a 1 is impossible in the MSSM.

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Dark Matter Constraints and the Neutralino Sector of the scNMSSM

Cited by 6 publications

References 67 publications

Formation Charginos and Dark matter from electron- positron annihilation

Formation Charginos and Dark matter from electron- positron annihilation

Investigation of production of neutral Higgs boson and two charged charginos from electron-positron annihilation via different propagators

LHC Signals of the Next-to-Lightest Scalar Higgs State of the NMSSM in the $4 τ$ Decay Channel

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Dark Matter Constraints and the Neutralino Sector of the scNMSSM

Cited by 6 publications

References 67 publications

Formation Charginos and Dark matter from electron- positron annihilation

Formation Charginos and Dark matter from electron- positron annihilation

Investigation of production of neutral Higgs boson and two charged charginos from electron-positron annihilation via different propagators

LHC Signals of the Next-to-Lightest Scalar Higgs State of the NMSSM in the 4 τ Decay Channel

Contact Info

Product

Resources

About

LHC Signals of the Next-to-Lightest Scalar Higgs State of the NMSSM in the $4 τ$ Decay Channel