Non-Archimedean and p-adic Functional Welch Bounds

Abstract

We prove the non-Archimedean (resp. p-adic) Banach space version of non-Archimedean (resp. p-adic) Welch bounds recently obtained by M. Krishna. More precisely, we prove following results. 1. Let K be a non-Archimedean (complete) valued field satisfying |Σj=1nλj2|=1≤ j ≤ n|λj|2 for all λj ∈ K, 1≤ j ≤ n, for all n ∈ N. Let X be a d-dimensional non-Archimedean Banach space over K. If \τj\j=1n is any collection in X and \fj\j=1n is any collection in X* (dual of X) satisfying fj(τj) =1 for all 1≤ j ≤ n and the operator Sf, τ : Symm(X) x Σj=1nfj m(x)τj m ∈ Symm(X), is diagonalizable, then align (Non-Archimedean Functional Welch Bounds) 1≤ j,k ≤ n, j ≠ k\|n|, |fj(τk)fk(τj)|m \≥ |n|2|d+m-1 m| . align 2. For a prime p, let Qp be the p-adic number field. Let X be a d-dimensional p-adic Banach space over Qp. If \τj\j=1n is any collection in X and \fj\j=1n is any collection in X* (dual of X) satisfying fj(τj) =1 for all 1≤ j ≤ n and there exists b ∈ Qp such that Σj=1nfj m(x) τj m =bx for all x ∈ Symm(X), then align (p-adic Functional Welch Bounds) 1≤ j,k ≤ n, j ≠ k\|n|, |fj(τk)fk(τj)|m \≥ |n|2|d+m-1 m| . align We formulate non-Archimedean functional and p-adic functional Zauner conjectures.