Poles of the Zagreb analysis partial-wave<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mrow><mml:mi>T</mml:mi></mml:mrow></mml:math>matrices

Batinić, M.; Ceci, S.; Švarc, Alfred; Zauner, Branimir

doi:10.1103/physrevc.82.038203

Cited by 21 publications

(25 citation statements)

References 18 publications

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“…greb analysis actually two poles are found in the complex plane in the region Re z ∼ 1.7 GeV [150,154]. This scenario is similar to the present fit A that also has a second state, though far in the complex plane, called N (1750) 1/2 + (cf.…”

Section: /2 + Insupporting

confidence: 87%

Coupled-channel dynamics in the reactions πN → πN, ηN, KΛ, KΣ

Döring²,

et al. 2013

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Elastic πN scattering and the world data of the family of reactions π − p → ηn, K 0 Λ, K 0 Σ 0 , K + Σ − , and π + p → K + Σ + are described simultaneously in an analytic, unitary, coupled-channel approach. SU(3) flavor symmetry is used to relate both the t-and the u-channel exchanges that drive the meson-baryon interaction in the different channels. Angular distributions, polarizations, and spin-rotation parameters are compared with available experimental data. Partial-wave amplitudes are determined and the resonance content is extracted from the analytic continuation, including resonance positions and branching ratios, and possible sources of uncertainties are discussed. The results provide the final-state interactions for the ongoing analysis of photo-and electroproduction data.

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Section: /2 + Insupporting

confidence: 87%

Coupled-channel dynamics in the reactions πN → πN, ηN, KΛ, KΣ

Döring²,

et al. 2013

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“…Other pole extractions are available in the literature. These include, the speed plot extraction from πN → πN amplitudes by Höhler [45]; the SAID pole parameters given in [35] obtained from the SAID-GW WI08 partial wave analysis of πN elastic scattering [41]; the Kent State University (KSU) pole extraction in [46] using a multichannel parametrization of πN scattering amplitudes; the Pittsburgh-Argonne National Lab (P-ANL) pole extraction in [47]; the Giessen group coupled-channel analysis of η production and photoproduction data on the proton [48]; the Argonne National Lab-Osaka (ANL-O) amplitude analysis of πN → πN , ηN , KΛ, KΣ and γN → πN , ηN ,KΛ, KΣ data [49]; and the Zagreb analysis in [50] based on the CMB coupled-channel approach; Höhler, SAID, KSU, P-ANL, Giessen and ANL-O do not provide uncertainties in their pole extractions and the Zagreb group analysis only studies the N * spectrum, hence, we choose not to include them in our work. Also, we do not include superseded pole extractions within the same reaction models.…”

Section: Introductionmentioning

confidence: 99%

Regge phenomenology of theNandΔpoles

et al. 2019

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We use Regge phenomenology to study the structure of the poles of the N * and ∆ * spectrum. We employ the available pole extractions from partial wave analysis of meson scattering and photoproduction data. We assess the importance of the imaginary part of the poles (widths) to obtain a consistent determination of the parameters of the Regge trajectory. We compare the several pole extractions and show how Regge phenomenology can be used to gain insight in the internal structure of baryons. We find that the majority of the states in the parent Regge trajectories are compatible with a mostly compact three-quark state picture.

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“…[34][35][36][37][38]. Considering a broader energy range up to and beyond 2 GeV, K-matrix [7,[39][40][41][42][43][44] and unitary isobar [45] models are practical tools to perform an analysis of large amounts of data. Sometimes, the real part of the self-energies is neglected and only on-shell intermediate states are maintained, which reduces the complexity of the calculations.…”

Section: Introductionmentioning

confidence: 99%

Eta photoproduction in a combined analysis of pion- and photon-induced reactions

et al. 2015

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The ηN final state is isospin-selective and thus provides access to the spectrum of excited nucleons without being affected by excited ∆ states. To this end, the world database on eta photoproduction off the proton up to a center-of-mass energy of E ∼ 2.3 GeV is analyzed, including data on differential cross sections, and single and double polarization observables. The resonance spectrum and its properties are determined in a combined analysis of eta and pion photoproduction off the proton together with the reactions πN → πN , ηN , KΛ and KΣ. For the analysis, the so-called Jülich coupled-channel framework is used, incorporating unitarity, analyticity, and effective three-body channels. Parameters tied to photoproduction and hadronic interactions are varied simultaneously. The influence of recent MAMI T and F asymmetry data on the eta photoproduction amplitude is discussed in detail.

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Poles of the Zagreb analysis partial-waveTmatrices

Cited by 21 publications

References 18 publications

Coupled-channel dynamics in the reactions πN → πN, ηN, KΛ, KΣ

Coupled-channel dynamics in the reactions πN → πN, ηN, KΛ, KΣ

Regge phenomenology of theNandΔpoles

Eta photoproduction in a combined analysis of pion- and photon-induced reactions

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Poles of the Zagreb analysis partial-waveTmatrices

Cited by 21 publications

References 18 publications

Coupled-channel dynamics in the reactions πN → πN, ηN, KΛ, KΣ

Coupled-channel dynamics in the reactions πN → πN, ηN, KΛ, KΣ

Regge phenomenology of theN*andΔ*poles

Eta photoproduction in a combined analysis of pion- and photon-induced reactions

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Regge phenomenology of theNandΔpoles