The Hyperfine Splitting in Charmonium: Lattice Computations Using the Wilson and Clover Fermion Actions

Abstract

We compute the hyperfine splitting mJ/-mηc on the lattice, using both the Wilson and O(a)-improved (clover) actions for quenched quarks. The computations are performed on a 243×48 lattice at β = 6.2, using the same set of 18 gluon configurations for both fermion actions. We find that the splitting is 1.831315 times larger with the clover action than with the Wilson action, demonstrating the sensitivity of the spin-splitting to the magnetic moment term which is present in the clover action. However, even with the clover action the result is less than half of the physical mass-splitting. We also compute the decay constants fηc and f-1J/, both of which are considerably larger when computed using the clover action than with the Wilson action. For example for the ratio f-1J//f-1 we find 0.3212 with the Wilson action and 0.48 3 with the clover action (the physical value is 0.44(2)).

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