2008
DOI: 10.1140/epja/i2008-10625-3
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The N*(1710) as a resonance in the ππN system

Abstract: We study the ππN system by solving the Faddeev equations, for which the input twobody t-matrices are obtained by solving the Bethe-Salpeter equation in the coupled channel formalism. The potentials for the ππ, πN sub-systems and their coupled channels are obtained from chiral Lagrangians, which have been earlier used to study resonances in these systems successfully. In this work, we find a resonance in the ππN system with a mass of 1704−i375/2 MeV and with quantum numbers I = 1/2, J π = 1/2 + . We identify th… Show more

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Cited by 103 publications
(240 citation statements)
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“…In this sense, such strangeness −1 or 0 resonances can also be considered as pentaquark states. Actually similar investigations have even been extended to systems of two-mesons and a baryon where resonances arising purely from the three-body dynamics have been deduced [41][42][43][44], thus indicating the importance of a heptaquark content in some cases. Proceeding in a similar way we investigate if mesonbaryon configurations with a positive strangeness also form a resonance or a bound state.…”
Section: Introductionmentioning
confidence: 92%
“…In this sense, such strangeness −1 or 0 resonances can also be considered as pentaquark states. Actually similar investigations have even been extended to systems of two-mesons and a baryon where resonances arising purely from the three-body dynamics have been deduced [41][42][43][44], thus indicating the importance of a heptaquark content in some cases. Proceeding in a similar way we investigate if mesonbaryon configurations with a positive strangeness also form a resonance or a bound state.…”
Section: Introductionmentioning
confidence: 92%
“…In the latest SAID analyses [11,39], this resonance was not needed for the description of πN scattering either. The P 11 (1710)'s negligible coupling to πN and its absence in reactions where the ππN channels are not relevant can be attributed to it being a resonance in the ππN system [40].…”
Section: Arxiv:11116511v2 [Nucl-th] 8 Mar 2012mentioning
confidence: 99%
“…For instance π∆ 3/2 − (1700) may contribute to N 3/2 + (1720) and π∆ 1/2 − (1620) as well as σN to N 1/2 + (1710). Indeed in this latter case the resonance has been dynamically generated as a σN state [31]. …”
Section: A I=3/2mentioning
confidence: 99%