27 27

Abstract

We study the decomposition into SU(N) irreducible representations (irreps) of the tensor product 27 27, where 27 is the highest-dimensional SU(N) irrep present in a two-gluon system, and explicitly construct all Hermitian projectors on these irreps, as well as transition operators between them. This yields an explicit basis of the complete 27 27 color space (defined as the space of 27 27 27 27 color maps) in terms of orthogonal multiplets. This study shows that even complex color structures can be addressed, with the help of the birdtrack pictorial technique, using only elementary tools. In particular, we highlight the usefulness of the quadratic Casimir operator, whose eigenspaces allow efficient filtering of all projectors and transition operators, and of the permutation operators that further improve this filtering. The product 27 27 also has an interesting feature: three equivalent irreps 27 appear in the decomposition, two of which are symmetric and can therefore be distinguished neither by the quadratic Casimir operator nor by their symmetry under permutation. In this case, it is convenient to use Clebsch-Gordan coefficients to derive the two associated, symmetric projectors. The latter are not uniquely determined (only their sum is), and we give the set of all solutions. Finally, we explicitly derive the soft anomalous dimension matrix associated with 27 27 27 27, whose block-diagonal main structure is easy to understand, but whose detailed spectrum properties remain intriguing. The approach presented for 27 27 27 27 could in principle be applied to any product of SU(N) irreps, and eventually automated.

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