Pole Analysis on Unitarized SU(3) × SU(3) One Loop χPT Amplitudes

Dai, L.; Wang, X. G.; Zheng, Han-Qing

doi:10.1088/0253-6102/57/5/15

Cited by 40 publications

(76 citation statements)

References 26 publications

(49 reference statements)

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“…[31,32]). Along the same lines, the unitarity approach with the coupled channels explains successfully both the experimental data for the light scalar mesons [25,33,34] (such as a 0 (980), f 0 (980), σ, and κ [or K * (800)]) and the light baryons [21,24,[35][36][37][38][39], two Λ(1405), Λ(1670), N * (1535), ∆(1620), etc. Extrapolation of this dynamics to the charm sector has also produced many meson states, as the D * s0 (2317), D * 0 (2400), X(3700), X(3872), etc [40][41][42][43][44], as well as baryon states like the Λ c (2595) [45][46][47].…”

Section: Introductionmentioning

confidence: 78%

Study ofηKK¯andη′KK¯with the fixed center approximation to Faddeev equations

Xiao

Oset

2013

Phys. Rev. D

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A study of ηKK and η ′ KK with the fixed center approximation to Faddeev equations. AbstractIn the present work we investigate the three-body systems of ηKK and η ′ KK, by taking the fixed center approximation to Faddeev equations. We find a clear and stable resonance structure around 1490 MeV in the squared ηKK scattering amplitude, which is not sensitive to the renormalization parameters. Conversely, we get only an enhancement effect of the threshold in the η ′ KK amplitude that indicates the difficulty to bind the η ′ KK system as a consequence of a weaker η ′ K interaction than the ηK one. We associate the ηKK state found to the η(1475).

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Section: Introductionmentioning

confidence: 78%

Study ofηKK¯andη′KK¯with the fixed center approximation to Faddeev equations

Xiao

Oset

2013

Phys. Rev. D

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“…On the other hand, the nature of the light scalar resonances, such as f 0 (500),f 0 (980), K * 0 (800), etc., is still unclear and various descriptions are proposed by different groups: meson-meson molecular, tetraquark, standardqq with a strong pion cloud, etc. As a result of this, their N C behavior is also under debate [28,29,[31][32][33][34]. Though the N C trajectories of the scalar resonances reported by different groups diverge from each other, surprisingly there is one common feature from Refs.…”

Section: Relevant Rχt Lagrangian a Rχt Building Blocksmentioning

confidence: 99%

“…Though the N C trajectories of the scalar resonances reported by different groups diverge from each other, surprisingly there is one common feature from Refs. [28,29,[31][32][33]: a scalar resonance with mass around 1 GeV appears at large N C . Based on these results and the success of this hypothesis in previous analyses [10,11,27], we will assume in the present article the existence of a large-N C scalar nonet with a bare mass around 1 GeV.…”

Section: Relevant Rχt Lagrangian a Rχt Building Blocksmentioning

confidence: 99%

Resonance effects in pion and kaon decay constants

Guo

Sanz-Cillero

2014

Phys. Rev. D

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“…(26,27), on the determinations of the pole trajectories with varying N C . The corresponding results together with the ones by only considering the leading N C scalings, are shown in Figs.…”

Section: N C Trajectories For the Charm Scalar Mesonsmentioning

confidence: 99%

“…[22,23]. Another kind of pole trajectories with varying N C , with N C the number of colors in QCD, has been demonstrated to be useful to discriminate different explanations for light-flavor resonances [24][25][26][27][28], such as for f 0 (500), ρ(770), etc. However, the study of the N C trajectories of the D * s0 (2317) state is still lacking.…”

Section: Introductionmentioning

confidence: 99%

New insights into theDs0*(2317)and other charm scalar mesons

2015

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Through the scattering of light-pseudoscalar mesons (π, K, η, η ′ ) off charmed mesons (D, D s ), we study the D * s0 (2317) state and other relevant charm scalar mesons in a unitarized chiral effective field theory approach. We investigate the charm scalar meson poles with different strangeness (S) and isospin (I) quantum numbers as well as their corresponding residues, which provide the coupling strengths of the charm scalar mesons. Both the light-quark mass and N C dependences of the pole positions of the D * s0 (2317) and the poles with (S, I) = (0, 1/2) are analyzed in detail in this work. Interestingly we observe quite similar pion mass trajectories for the resonance pole at around 2.1 GeV with (S, I) = (0, 1/2) to those of the f 0 (500) given in the literature. When increasing the values of N C we find that a bound state and a virtual state in the (S, I) = (1, 0) channel asymmetrically approach the DK threshold for N C < 6, and they meet at this threshold at N C = 6. When N C > 6, the bound and virtual states move into the complex plane on the second Riemann sheet and become a symmetric pair of resonance poles. For large enough values of N C , neither the D * s0 (2317) pole nor the poles with (S, I) = (0, 1/2) tend to fall down to the real axis, indicating that they do not behave like a standard quark-antiquark meson at large N C .

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Pole Analysis on Unitarized SU(3) × SU(3) One Loop χPT Amplitudes

Cited by 40 publications

References 26 publications

Study ofηKK¯andη′KK¯with the fixed center approximation to Faddeev equations

Study ofηKK¯andη′KK¯with the fixed center approximation to Faddeev equations

Resonance effects in pion and kaon decay constants

New insights into theDs0*(2317)and other charm scalar mesons

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