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Double crystals of binary and integral matrices. (English) Zbl 1114.05099

Summary: We introduce a set of operations that we call crystal operations on matrices with entries either in \(\{0,1\}\) or in \(\mathbf N\). There are horizontal and vertical forms of these operations, which commute with each other, and they give rise to two different structures of a crystal graph of type \(A\) on these sets of matrices. They provide a new perspective on many aspects of the RSK correspondence and its dual, and related constructions. Under a straightforward encoding of semistandard tableaux by matrices, the operations in one direction correspond to crystal operations applied to tableaux, while the operations in the other direction correspond to individual moves occurring during a jeu de taquin slide. For the (dual) RSK correspondence, or its variant the Burge correspondence, a matrix \(M\) can be transformed by horizontal respectively vertical crystal operations into each of the matrices encoding the tableaux of the pair associated to \(M\), and the inverse of this decomposition can be computed using crystal operations too. This decomposition can also be interpreted as computing Robinson’s correspondence, as well as the Robinson-Schensted correspondence for pictures. Crystal operations shed new light on the method of growth diagrams for describing the RSK and related correspondences: organising the crystal operations in a particular way to determine the decomposition of matrices, one finds growth diagrams as a method of computation, and their local rules can be deduced from the definition of crystal operations. The Schützenberger involution and its relation to the other correspondences arise naturally in this context. Finally we define a version of Greene’s poset invariant for both of the types of matrices considered, and show directly that crystal operations leave it unchanged, so that for such questions in the setting of matrices they can take play the role that elementary Knuth transformations play for words.

MSC:

05E10 Combinatorial aspects of representation theory
05E15 Combinatorial aspects of groups and algebras (MSC2010)
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