The Carath\'eodory-Fej\'er Interpolation Problems and the von-Neumann Inequality

Abstract

The validity of the von-Neumann inequality for commuting n - tuples of 3× 3 matrices remains open for n≥ 3. We give a partial answer to this question, which is used to obtain a necessary condition for the Carath\'eodory-Fej\'er interpolation problem on the polydisc Dn. In the special case of n=2 (which follows from Ando's theorem as well), this necessary condition is made explicit. An alternative approach to the Carath\'eodory-Fej\'er interpolation problem, in the special case of n=2, adapting a theorem of Kor\'anyi and Puk\'anzsky is given. As a consequence, a class of polynomials are isolated for which a complete solution to the Carath\'eodory-Fej\'er interpolation problem is easily obtained. A natural generalization of the Hankel operators on the Hardy space of H2( T2) then becomes apparent. Many of our results remain valid for any n∈ N, however, the computations are somewhat cumbersome for n>2 and are omitted. The inequality n ∞C2(n)≤ 2 K CG, where KG C is the complex Grothendieck constant and \[C2(n)=\\|p( T)\|:\|p\| Dn,∞≤ 1, \| T\|∞ ≤ 1 \\] is due to Varopoulos. Here the supremum is taken over all complex polynomials p in n variables of degree at most 2 and commuting n - tuples T:=(T1,…,Tn) of contractions. We show that \[n ∞C2(n)≤ 334 K CG\] obtaining a slight improvement in the inequality of Varopoulos. We show that the normed linear space 1(n), n>1, has no isometric embedding into k× k complex matrices for any k∈ N and discuss several infinite dimensional operator space structures on it.