Philip G. Ratcliffe

SU(3) breaking in hyperon beta decays: A prediction for Ξ 0 → Σ + e ν ¯

On the basis of a previous analysis of hyperon semileptonic decay data, a prediction is presented for

A matrix approach to numerical solution of the DGLAP evolution equations

{g}_{1}{/f}_{1}

Non-Universality and Evolution of the Sivers Function

in the

Single-Spin Asymmetries and Transversity

{\ensuremath{\Xi}}^{0}\ensuremath{\rightarrow}{\ensuremath{\Sigma}}^{+}e\overline{\ensuremath{\nu}}

QCD evolution of transversity in leading and next-to-leading order

\ensuremath{\beta}

A New Approach to Parton-Density Evolution

-decay. The analysis takes into account SU(3) breaking in this sector via the inclusion of mass-driven corrections. A rather precise measurement of the above channel by the KTeV experiment at Fermilab will shortly be available. Since the dependence on the SU(3) parameters, F and D, is identical to that of the neutron

Colour Modification of Effective T-odd Distributions

\ensuremath{\beta}

HYPERON BETA DECAY AND THE CKM MATRIX

-decay, such a measurement will provide a rather stringent test of SU(3) and the models used to describe its violation in these decays. The prediction given here for the above decay is

SU(3) breaking in hyperon beta decays: a prediction for Ξ0 → Σ+ev

{g}_{1}{/f}_{1}=1.17,