On a Question of N. Th. Varopoulos and the constant C2(n)

Abstract

Let Ck[Z1,…, Zn] denote the set of all polynomials of degree at most k in n complex variables and Cn denote the set of all n - tuple T=(T1,…,Tn) of commuting contractions on some Hilbert space H. The interesting inequality KG C≤ n ∞C2(n)≤ 2 K CG, where \[Ck(n)=\\|p( T)\|:\|p\| Dn,∞≤ 1, p∈ Ck[Z1,…,Zn], T∈Cn \\] and KG C is the complex Grothendieck constant, is due to Varopoulos. We answer a long--standing question by showing that the limit n∞ C2(n)K CG is strictly bigger than 1. Let C2s[Z1,… , Zn] denote the set of all complex valued homogeneous polynomials p(z1,…,zn) =Σj,k=1najkzjzk of degree two in n - variables, where (\!(ajk)\!) is a n× n complex symmetric matrix. For each n∈N, define the linear map An: ( C2s[Z1,… , Zn],\|·\| Dn, ∞ ) (Mn, \|· \|∞ 1 ) to be An (p) = (\!(ajk)\!). We show that the supremum (over n) of the norm of the operators An;\,n∈N, is bounded below by the constant π2/8. Using a class of operators, first introduced by Varopoulos, we also construct a large class of explicit polynomials for which the von Neumann inequality fails. We prove that the original Varopoulos--Kaijser polynomial is extremal among a, suitably chosen, large class of homogeneous polynomials of degree two. We also study the behaviour of the constant Ck(n) as n ∞.