Journal of Combinatorial Theory Series A
Lattice path matroids: enumerative aspects and Tutte polynomials
Journal of Combinatorial Theory Series A
European Journal of Combinatorics
A free subalgebra of the algebra of matroids
European Journal of Combinatorics
A matroid-friendly basis for the quasisymmetric functions
Journal of Combinatorial Theory Series A
Primitive elements in the matroid-minor Hopf algebra
Journal of Algebraic Combinatorics: An International Journal
Symmetric and quasi-symmetric functions associated to polymatroids
Journal of Algebraic Combinatorics: An International Journal
A quasisymmetric function for matroids
European Journal of Combinatorics
On the asymptotic proportion of connected matroids
European Journal of Combinatorics
European Journal of Combinatorics
| Hi-index | 0.01 |
We study the combinatorial, algebraic and geometric properties of the free product operation on matroids. After giving cryptomorphic definitions of free product in terms of independent sets, bases, circuits, closure, flats and rank function, we show that free product, which is a noncommutative operation, is associative and respects matroid duality. The free product of matroids M and N is maximal with respect to the weak order among matroids having M as a submatroid, with complementary contraction equal to N. Any minor of the free product of M and N is a free product of a repeated truncation of the corresponding minor of M with a repeated Higgs lift of the corresponding minor of N. We characterize, in terms of their cyclic flats, matroids that are irreducible with respect to free product, and prove that the factorization of a matroid into a free product of irreducibles is unique up to isomorphism. We use these results to determine, for K a field of characteristic zero, the structure of the minor coalgebra K{M} of a family of matroids M that is closed under formation of minors and free products: namely, K{M} is cofree, cogenerated by the set of irreducible matroids belonging to M.