Dimension towers of SICs. I. Aligned SICs and embedded tight frames

Abstract

Algebraic number theory relates SIC-POVMs in dimension d>3 to those in dimension d(d-2). We define a SIC in dimension d(d-2) to be aligned to a SIC in dimension d if and only if the squares of the overlap phases in dimension d appear as a subset of the overlap phases in dimension d(d-2) in a specified way. We give 19 (mostly numerical) examples of aligned SICs. We conjecture that given any SIC in dimension d there exists an aligned SIC in dimension d(d-2). In all our examples the aligned SIC has lower dimensional equiangular tight frames embedded in it. If d is odd so that a natural tensor product structure exists, we prove that the individual vectors in the aligned SIC have a very special entanglement structure, and the existence of the embedded tight frames follows as a theorem. If d-2 is an odd prime number we prove that a complete set of mutually unbiased bases can be obtained by reducing an aligned SIC to this dimension.