Properties of the baryon antidecuplet

Oh, Yongseok; Kim, Hung chong; Lee, Su Houng

doi:10.1103/physrevd.69.094009

Cited by 52 publications

(73 citation statements)

References 46 publications

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“…In Ref. [122], however, it was pointed out that the N(1710) should be excluded as a pure antidecuplet state. This is because, within SU(3) symmetry, antidecuplet does not couple to decuplet and meson octet, whereas N(1710) has a large branching ratio into π∆ channel.…”

Section: Introductionmentioning

confidence: 99%

Pentaquark Θ+(1540) production in γN→KK¯N reactions

Nakayama

Lee

2006

Physics Reports

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The recent developments in the search of exotic pentaquark hadrons are briefly reviewed. We then focus on investigating how the exotic pentaquark Θ(1540) baryon production can be identified in the γN → KKN reactions, focusing on the influence of the background (non-Θ production) mechanisms. By imposing the SU(3) symmetry and using various quark model predictions, we are able to fix the coupling constants for evaluating the kaon backgrounds, the KK production through the intermediate vector meson and tensor meson photoproduction, and the mechanisms involving intermediate Λ (1116), Λ(1405), Λ(1520), Σ(1193), Σ(1385), and ∆(1232) states. The vector meson photoproduction part is calculated from a phenomenological model which describes well the experimental data at low energies. We point out that the neutral tensor meson production can not be due to π 0 -exchange as done by Dzierba et al. [Phys. Rev. D 69, 051901 (2004)] because of C parity. The neutral tensor meson production is estimated by considering the vector meson exchange and found to be too weak to generate any peak at the position near Θ(1540). For Θ(1540) production, we assume that it is an isoscalar and hence can only be produced in γn → K + K − n and γp → K 0 K 0 p reactions, but not in γp → K + K − p and γn → K 0 K 0 n. The total cross section data of γp → K + K − p is thus used to fix the form factors which regularize the background amplitudes so that the signal of Θ(1540) in γn → K + K − n and γp → K 0 K 0 p cross sections can be predicted.We find that the predicted K + K − and K + n invariant mass distributions of the γn → K + K − n reaction can qualitatively reproduce the shapes of the JLab data. However, the predicted Θ(1540) peak can not be identified unambiguously with the data. High statistics experiments are needed to resolve the problem. We also find that an even-parity Θ is more likely to be detected, while it will be difficult to identify an odd-parity Θ, even if it exists, from the background continuum, if its coupling constants are small as in the present quark model predictions.

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Section: Introductionmentioning

confidence: 99%

Pentaquark Θ+(1540) production in γN→KK¯N reactions

Nakayama

Lee

2006

Physics Reports

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“…[15,16,17] implicitly constrains these to be g 2 ΘN K * = 3g 2 ΘN K and |κ * θ | = 0. Note that this will enhance the strength of the K * exchange since most of the previous literature [19,20,21,22,25,26] assume…”

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confidence: 99%

“…Several phenomenological studies of γN → KΘ + have been proposed in the literature [18,19,20,21,22,23,24,25,26]. Although these give quite different predictions in detail due to their varied underlying assumptions, they share certain essential common features that enable robust constraints to be placed on the relative production rates for various pentaquarks.…”

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confidence: 99%

“…The differing output of the calculations in Refs. [18,19,20,21,22,23,24,25,26] for magnitudes and energy dependences are due to their various assumptions on the magnitudes of, e.g., g ΘN K , g ΘN K * , the role of the contact term and importance of s : u channels. However, some qualitative features can be immediately understood, which are sufficient for the generalisations in this present paper.…”

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confidence: 99%

“…The general assumption subsumed in Refs. [18,19,20,21,22,23,24,25,26] is that for γn → K − Θ + , four transition amplitudes labelled by the Mandelstam variables contribute in the Born approximation limit. These are shown by diagrams in Fig.…”

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confidence: 99%

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Photoproduction of Θ+ and other pentaquark states

Zhao

2004

Physics Letters B

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We present constraints on the relative photoproduction cross sections of positive parity pentaquark states, Σ5, Λ5, and N5, based on a minimum phenomenology gained in γN → KΘ + and their baryon-meson couplings as in the work of Close and Dudek. The possibility of anomalous signals in γp → K 0 S (Θ + ; Σ + d ) is discussed. We emphasise the importance of comparing γN → KΘ + with "conventional" states such as

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Spin asymmetries in γN→K¯*Θ+

Kim

Lee

2004

Nuclear Physics A

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Properties of the baryon antidecuplet

Cited by 52 publications

References 46 publications

Pentaquark Θ+(1540) production in γN→KK¯N reactions

Pentaquark Θ+(1540) production in γN→KK¯N reactions

Photoproduction of Θ+ and other pentaquark states

Spin asymmetries in γN→K¯*Θ+

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