Detecting Wave Function Collapse Without Prior Knowledge

Abstract

We are concerned with the problem of detecting with high probability whether a wave function has collapsed or not, in the following framework: A quantum system with a d-dimensional Hilbert space is initially in state ; with probability 0<p<1, the state collapses relative to the orthonormal basis b1,...,bd. That is, the final state ' is random; it is with probability 1-p and bk (up to a phase) with p times Born's probability | bk| |2. Now an experiment on the system in state ' is desired that provides information about whether or not a collapse has occurred. Elsewhere, we identify and discuss the optimal experiment in case that is either known or random with a known probability distribution. Here we present results about the case that no a priori information about is available, while we regard p and b1,...,bd as known. For certain values of p, we show that the set of for which any experiment E is more reliable than blind guessing is at most half the unit sphere; thus, in this regime, any experiment is of questionable use, if any at all. Remarkably, however, there are other values of p and experiments E such that the set of for which E is more reliable than blind guessing has measure greater than half the sphere, though with a conjectured maximum of 64% of the sphere.