INTERFERENCE MICROSCOPY AND FOURIER FRINGE ANALYSIS APPLIED TO MEASURING THE SPATIAL REFRACTIVE-INDEX DISTRIBUTION

We have applied the technique of Fourier fringe analysis to microscopi c interferograms of needle crystals that grow from a solution. We use a differential technique in which an empty field interferogram is comp ared with one that contains distortion and obscuration by the growing crystal, and we demonstrate both analytically and experimentally a pha se shift sensitivity of 0.01 fringe with a spatial resolution of half of a fringe spacing (approximately 1 mum). Following the analysis of t he interferogram in two dimensions, we show that the three-dimensional refractive-index field around the crystal can be deduced, assuming th at it is axially symmetric, by an iterative method.