Near Field Speckles

Elastic light scattering has been extensively used to study samples showing a non uniform refraction index on lengthscales from a fraction of a micrometer to a fraction of a millimeter. Typically, a wide laser beam is sent through the sample, and the light scattered at any angle is measured by a detector in the far field. In this Ph. D. thesis, I describe three new techniques, which allow to measure the scattering intensities, working in the near field: hOmoyne Near Field Speckles (ONFS), hEterodyne Near Field Speckles (ENFS) and Schlieren-like Near Field Speckles (SNFS). Basically, the experimental setup consists in a wide laser beam passing through the sample; a lens forms an image of a plane at a given distance from the cell on a CCD sensor. The image, in the near field, shows speckles, since it is formed by the stochastical interference of the light coming from a random sample. I show that, under suitable conditions, the correlation function of such a field closely mirrors the correlation function of the investigated sample; moreover, in general, from the correlation function of the speckle field it is possible to calculate the scattered intensity. I present for the first time a mathematical derivation of the working formulas for the three techniques, and experimental results.