NCS Systems over Differential Operator Algebras and the Grossman-Larson Hopf Algebras of Labeled Rooted Trees

Abstract

Let K be any unital commutative -algebra and W any non-empty subset of +. Let z=(z1, ..., zn) be commutative or noncommutative free variables and t a formal central parameter. % Denote uniformly by and the formal power series algebras % of z over K and K[[t]], respectively. Let (α≥ 1) be the unital algebra generated by the differential operators of which increase the degree in z by at least α-1 and the group of automorphisms Ft(z)=z-Ht(z) of with o(Ht(z))≥ α and Ht=0(z)=0. First, we study a connection of the systems Ft (Ft∈ ) (GTS-I, GTS-II) over the differential operators algebra and the system W (GTS-IV) over the Grossman-Larson Hopf algebra GLW (GL, F1, F2) of W-labeled rooted trees. We construct a Hopf algebra homomorphism AFt: GLW (Ft∈ ) such that AFt× 5(W) =Ft. Secondly, we generalize the tree expansion formulas for the inverse map (BCW, Wr3), the D-Log and the formal flow (WZ) of Ft in the commutative case to the noncommutative case. Thirdly, we prove the injectivity of the specialization : NSym GL^+ (GTS-IV) of NCSF's (noncommutative symmetric functions) (G-T). Finally, we show the family of the specializations Ft of NCSF's with all n≥ 1 and the polynomial automorphisms Ft=z-Ht(z) with Ht(z) homogeneous and the Jacobian matrix JHt strictly lower triangular can distinguish any two different NCSF's. The graded dualized versions of the main results above are also discussed.

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