Three-body model for $K(1460)$ resonance

Filikhin, I.; Kezerashvili, R. Ya.; Suslov, V. M.; Tsiklauri, Sh. M.; Vlahovic, B.

doi:10.48550/arxiv.2008.00111

Cited by 2 publications

(4 citation statements)

References 62 publications

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“…A three-body KK K quasibound state with I(J P ) = 1 2 (0 − ) was found with a mass around 1420 MeV which was identified with the K(1460). In a more recent work [38], by solving the Faddeev equations in configuration space within the Gaussian expansion method, the K(1460) was identified with a three-body KK K bound state with a mass of 1460 MeV. We note that in Ref.…”

Section: Introductionmentioning

confidence: 92%

Remarks on non-perturbative three--body dynamics and its application to the $KK\bar K$ system

Zhang,

Hanhart,

Meißner

et al. 2021

Preprint

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A formalism is discussed that allows for a straightforward treatment of the relativistic three-body problem while keeping the correct analytic structure. In particular it is demonstrated that sacrificing covariance for analyticity can be justified by the hierarchy of different contributions in the spirit of an effective field theory. For definiteness the formalism is applied to the KK K system allowing for the emergence of the a 0 (980) and the f 0 (980) as hadronic molecules. For simplicity all inelastic channels are switched off.

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Section: Introductionmentioning

confidence: 92%

Remarks on non-perturbative three--body dynamics and its application to the $KK\bar K$ system

Zhang,

Hanhart,

Meißner

et al. 2021

Preprint

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“…[20] (see Refs. [19,[21][22][23]), and a kaon state has always been found to arise with mass ∼ 1460 MeV but with widths ranging between MeV, depending on the model.…”

Section: Formalismmentioning

confidence: 99%

“…Next, we need to calculate the expressions in Eq. (23). To do this, we consider the Passarino-Veltman reduction for tensor integrals [49] and write I (1) µ = a…”

Section: E Decay Widths Of φ(2170) Into a Kaonic Resonance Plus A Kmentioning

confidence: 99%

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Partial decay widths of $ϕ(2170)$ to kaonic resonances

Malabarba,

Ren,

Khemchandani

et al. 2020

Preprint

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In this work we study the strong decays of φ(2170) to final states involving the kaonic resonances K(1460), K 1 (1270) and K 1 (1400), on which experimental data have recently been extracted by the BESIII Collaboration. The formalism developed here is based on interpreting φ(2170) and K(1460) as states arising from three-hadron dynamics, which is inspired by our earlier works. For K 1 (1270) and K 1 (1400) we investigate different descriptions, such as a mixture of states belonging to the nonet of axial resonances, or the former one as a state originating from the vectorpseudoscalar dynamics. The ratios among the partial widths of K + (1460)K − , K + 1 (1400)K − and K + 1 (1270)K − obtained are compatible with the experimental results, reinforcing the three-body nature of φ(2170). Within our formalism, we can also explain the suppressed decay of φ(2170) to K * (892) K * (892), as found by the BESIII Collaboration. Furthermore, our results can be useful in clarifying the properties of K(1460), K 1 (1270) and K 1 (1400) when higher statistics data would be available.

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Three-body model for $K(1460)$ resonance

Cited by 2 publications

References 62 publications

Remarks on non-perturbative three--body dynamics and its application to the $KK\bar K$ system

Remarks on non-perturbative three--body dynamics and its application to the $KK\bar K$ system

Partial decay widths of $ϕ(2170)$ to kaonic resonances

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