2022
DOI: 10.1016/j.physletb.2022.137339
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Laser-assisted charged Higgs boson decay in Two Higgs Doublet Model - type II

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Cited by 4 publications
(1 citation statement)
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“…The production of a pair from an annihilation e − e + has been the subject of several works, namely physics with linear colliders e − e + [4], the production of muon pairs in the presence of a circularly and linearly polarized laser field [5,6], the production of charged and neutral Higgs pairs in the fact of a circularly polarized laser field [7,8], the production of Higgs-strahlung bosons in the presence of a circularly polarized laser field [9]. Notably, in the field of unstable particle decays, several studies have treated laser-assisted processes such as the laser effect on the final decay products of the Z-boson [10], the new phenomena in laser-assisted leptonic decays of the negatively charged boson W − [11] and the laser-assisted charged Higgs boson decay in two Higgs doublet model-type II [12]. The quark top was discovered in 1994 at the Run I of the Tevatron [13], and its study is significant because, by its large mass, it distinguishes from all other fermions, and it opens a new energy region.…”
Section: Introductionmentioning
confidence: 99%
“…The production of a pair from an annihilation e − e + has been the subject of several works, namely physics with linear colliders e − e + [4], the production of muon pairs in the presence of a circularly and linearly polarized laser field [5,6], the production of charged and neutral Higgs pairs in the fact of a circularly polarized laser field [7,8], the production of Higgs-strahlung bosons in the presence of a circularly polarized laser field [9]. Notably, in the field of unstable particle decays, several studies have treated laser-assisted processes such as the laser effect on the final decay products of the Z-boson [10], the new phenomena in laser-assisted leptonic decays of the negatively charged boson W − [11] and the laser-assisted charged Higgs boson decay in two Higgs doublet model-type II [12]. The quark top was discovered in 1994 at the Run I of the Tevatron [13], and its study is significant because, by its large mass, it distinguishes from all other fermions, and it opens a new energy region.…”
Section: Introductionmentioning
confidence: 99%