Abstract

Our operational approach to the problem of identifying dynamical variables to represent the phase, or the sine and cosine of the phase, of a quantum field is reviewed. We start from classical optics and examine what is usually measured to determine the phase difference between two fields. We point out that difficulties in phase measurements exist even in the classical domain, and these difficulties persist when the classical relations are used as guides in the construction of phase operators. We find that different measurement procedures lead naturally to different phase operators, so that there appears to be no one "correct" phase operator. We carry out a series of experiments to measure the phase difference between two fields in various quantum states, and then compare the results with the predictions of our formalism and some other formalisms. We obtain good agreement between experiment and our theoretical approach in every case, so far without exception.