Properties of color singlet chain states in e+e- annihilation

Abstract

We use the method of the color effective Hamiltonian to study the structure of color singlet chain states in Nc=3 and in the large Nc limit. In order to obtain their total fraction when Nc is finite, we illustrate how to orthogonalize these non-orthogonal states. We give numerical results for the fraction of orthogonalized states in e+e- qqgg. With the help of a diagram technique, we derive their fraction up to O(1/Nc2) for the general multigluon process. For large Nc the singlet chain states correspond to well-defined color topologies. Therefore we may expect that the fraction of non-color-singlet-chain states is an estimate of the fraction of events where color reconnection is possible. In the case of soft gluon bremsstrahlung, we give an explicit form for the color effective Hamiltonian which leads to the dipole cascade formulation for parton showering in leading order in Nc. The next-to-leading order corrections are also given for e+e- qqg1g2 and e+e- qqg1g2g3.

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