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NSTAR 2009, Beijing, China
Hyun-Chul Kim (Hyun-Chul Kim ( 金鉉哲金鉉哲 ))
Department of Physics, Inha University
Collaborators: T. Ledwig, K. Goeke, Seung-il Nam
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NSTAR 2009, Beijing, China
CLAS Results
• Very recent CLAS experiments to search for :: Null results!Cross sections of : 0.8 nb in 90% CL
Cross sections of : 3nb in 90% CL
K* Exchange is of great importance in describing the above reactions!K* Exchange is of great importance in describing the above reactions!
K*N & KN couplings must be very small!K*N & KN couplings must be very small!
• Miwa et al, Phys. Rev. C 77, 045203: No clear peak!
Diff. Cross sections for : 3.5 b/Sr in 90% CL
K*N coupling must be very small!
KEK Results
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• Did the CLAS results put a period to the existence of the pentaquark?
• Wohl in 2008 Review of Particle Physics:“The whole story – discoveries themselves, the tidal waves of papers by theorists and phenomenologists that followed, and the eventual “undiscovery” – is a curious episode in the history of science.”
• In the meanwhile……
NSTAR 2009, Beijing, China
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NSTAR 2009, Beijing, China
• Another recent DIANA experiment to search for
,
KN couplings must be also tiny!
DIANA Results
V.V. Barmin et al. [DIANA Collaboration] arXiv :hep-ex / 0603017
SVD Results
A.Aleev et al. [SVD Collaboration] arXiv :0803.3313
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NSTAR 2009, Beijing, China
K*N couplings must be very small!
Future experiments at J-PARC to search for
LEPS New Results
T. Nakano et al. [LEPS Collaboration] Phys. Rev. C 79, 025210
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• If the exists or not……• If it exists, its width must be below 1 MeV
and its existence must be reaction-dependent!• At any rate, K*N and KNcouplings must be
very small!• In the present talk, we aim at investigating these
two coupling constants, based on which we study photoproduction of the .
• We will also estimate the cross sections of the photoproduction of the .
NSTAR 2009, Beijing, China
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NSTAR 2009, Beijing, China
coupling constant for NK*
coupling constant for NK
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NSTAR 2009, Beijing, China HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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NSTAR 2009, Beijing, China HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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NSTAR 2009, Beijing, China HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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sealevels:
energyincreases
valencelevel:
energydecreases
system stabilzes
NSTAR 2009, Beijing, China HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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NSTAR 2009, Beijing, China HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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NSTAR 2009, Beijing, China
Hedgehog Ansatz:
5( ) ~
i i i
A Ai i
i occ
i MU
x
5( ) exp( ( ) )A AiU x x
f
Selfconsistent Soliton:No Free parameter to play with!All parameters have been fixed before.
HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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NSTAR 2009, Beijing, China
SU(2) Witten imbedding into SU(3): SU(2)XU(1)
HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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NSTAR 2009, Beijing, China
We treat the angular frequency and strange quark mass perturbatively.
HChK et al. Prog. Part. Nucl. Phys. Vol.37, 91 (1996)
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NSTAR 2009, Beijing, China T.Ledwig, HChK, K. Goeke, Nucl.Phys. A 811, 353-377 (2008).
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NSTAR 2009, Beijing, China
Mixing parameter for the octet & antidecuplet
T.Ledwig, HChK, K. Goeke, Nucl.Phys. A 811, 353-377 (2008).
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NSTAR 2009, Beijing, China
Riazuddin-Fayyazuddin relation
T.Ledwig, HChK, K. Goeke, Nucl.Phys. A 811, 353-377 (2008).
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NSTAR 2009, Beijing, China
Oh et al.:
Nam, Hosaka, HChK::
The present predictions turn out to be much smaller than the above references!
The present predictions turn out to be much smaller than the above references!
The tensor coupling is finite and is of the same order of the vector coupling!The tensor coupling is finite and is of the same order of the vector coupling!
T.Ledwig, HChK, K. Goeke, Nucl.Phys. A 811, 353-377 (2008).
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NSTAR 2009, Beijing, China
comparable to those from the Nijmegen potential.
For test, we have derived octet baryon coupling constants within the same formalism, for example,
The coupling constants for the Theta are an order-of-magnitude smaller!
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NSTAR 2009, Beijing, China
Leading contributions are almost cancelled by the rotational corrections!
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NSTAR 2009, Beijing, China
For the nucleon
A. Silva, HChK, D.Urbano, K. Goeke
Phys. Rev. D 72 (2005) 094011
Axial-vector constantsare well reproduced!
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NSTAR 2009, Beijing, China T.Ledwig, HChK, K. Goeke, Phys.Rev. D 78, 054005 (2008).
(Experimental data)
(Present result)
Delta decay is quite underestimated!
(No meson-loop corrections!)
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NSTAR 2009, Beijing, China
D.Diakonov, V. Petrov, M. Polyakov,Zeit. Phys. A 359, 305 (1997)
Model-dependent ratiotaken from Blotz et alwithout symmetry conserving quantization
Present result
Had Diakonov et al. used the present result, they woud get the decay width:
without changing
instead of 15 MeV (30 MeV).
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NSTAR 2009, Beijing, China T.Ledwig, HChK, K. Goeke, Phys.Rev. D 78, 054005 (2008).
DIANA Collaboration
< 1 MeV !
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NSTAR 2009, Beijing, China
Total cross sections
S.i. Nam and HChK, Phys. Rev. D 79, 034031 (2009)
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NSTAR 2009, Beijing, China
Total cross sections with and without K*
S.i. Nam and HChK, Phys. Rev. D 79, 034031 (2009)
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NSTAR 2009, Beijing, China
Differential cross sections with and without K*
S.i. Nam and HChK, Phys. Rev. D 79, 034031 (2009)
Enhancement in the forward direction!
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NSTAR 2009, Beijing, China
Differential cross sections with and without K*
S.i. Nam and HChK, Phys. Rev. D 79, 034031 (2009)
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NSTAR 2009, Beijing, China
Beam asymmetries with and without K*
S.i. Nam and HChK, Phys. Rev. D 79, 034031 (2009)
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• We investigated the vector and axial-vector transition form factors for N transitions, based on the chiral quark-soliton model.
• For the electric transition, the wave-function correction turns out to be of leading order (generalized Ademollo-Gatto theorem).
• The K* and K coupling constants are obtained to be very small.
• The width of the is shown to be less than 1 MeV. • We also estimated the total cross sections,
differential cross sections, and beam asymmetries for the photoproduction with the present results.
NSTAR 2009, Beijing, China
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NSTAR 2009, Beijing, China
Thank you very much!
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NSTAR 2009, Beijing, China
Backup materials Collective operators for the baryon-baryon-meson coupling constants
Leading order:
Rotational corrections: