Weak Hyperon Decays: Quark Sea and SU(3) Symmetry Breaking

Abstract

An explanation of the difference in the values of the apparent f/d ratios for the S- and P- wave amplitudes of nonleptonic hyperon decays is proposed. The argument is formulated in the framework of the standard pole model with (56,0+) ground-state and (70,1-) excited baryons as intermediate states for the P- and S- waves respectively. Under the assumption that the dominant part of the deviation of (f/d)P-wave from -1 is due to large quark sea effects, SU(3) symmetry breaking in energy denominators is shown to lead to a prediction for (f/d)S-wave which is in excellent agreement with experiment. This corroborates our previous unitarity calculations which indicated that the matrix elements <B|Hp.c.weak|B'> of the parity conserving weak Hamiltonian between the ground-state baryons are characterized by f0/d0 ≈ -1.6 or more. A brief discussion of the problem of the relative size of S- and P- wave amplitudes is given. Finally, implications for weak radiative hyperon decays are also discussed.

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