Quark and Pole Models of Nonleptonic Decays of Charmed Baryons

A. Le Yaouanc; A. P. Balachandran; B. Desplanques; D. Ebert; G. Nardulli; G. Turan; H. Y. Cheng; H. Y. Cheng; J. F. Donoghue; J. F. Donoghue; J. G. Körner; J. G. Körner; J. G. Körner; J. G. Körner; J. G. Körner; K. Hikasa; L. B. Okun; M. Avila-Aoki; M. Bonvin; M. J. Savage; M. K. Gaillard; N. A. Törnqvist; P. Żenczykowski; P. Żenczykowski; P. Żenczykowski; P. Żenczykowski; Q. P. Xu; S. Pakvasa; T. N. Pham

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Quark and Pole Models of Nonleptonic Decays of Charmed Baryons

Authors: A. Le Yaouanc
A. P. Balachandran
B. Desplanques
D. Ebert
G. Nardulli
G. Turan
H. Y. Cheng
H. Y. Cheng
J. F. Donoghue
J. F. Donoghue
J. G. Körner
J. G. Körner
J. G. Körner
J. G. Körner
J. G. Körner
K. Hikasa
L. B. Okun
M. Avila-Aoki
M. Bonvin
M. J. Savage
M. K. Gaillard
N. A. Törnqvist
P. Żenczykowski
P. Żenczykowski
P. Żenczykowski
P. Żenczykowski
Q. P. Xu
S. Pakvasa
T. N. Pham
Publication date: 8 September 1993
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Quark and pole models of nonleptonic decays of charmed baryons are analysed from the point of view of their symmetry properties. The symmetry structure of the parity conserving amplitudes that corresponds to the contribution of the ground-state intermediate baryons is shown to differ from the one hitherto employed in the symmetry approach. It is pointed out that the "subtraction" of sea quark effects in hyperon decays leads to an estimate of

W

-exchange contributions in charmed baryon decays that is significantly smaller than naively expected on the basis of

SU(4)

. An

SU(2)_{W}

constraint questioning the reliability of the factorization technique is exhibited. Finally, a successful fit to the available data is presented.Comment: 25 pages, LATEX, 1643/PH IFJ Krako

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