| Abstract: | Recent theoretical work has shown that the complete set of polarized elastic light scattering studies should yield information about particle structure that has so far hardly been utilized. We present calculations of such light-scattering properties for a number of model structures, exploring particularly the size limit at which the new effects should become visible. The particles are assumed to be randomly oriented in aqueous suspension, and all identical to each other. We compare several particle models of differing geometrical shape, but with identical forward scattering power and identical radii of gyration. We find that one of the ten observables shows particularly desirable properties as a general large-particle characterization parameter: it is nonzero for all structures, it approaches zero as particle size decreases, and it shows an angular dependence that distinguishes among models of different shape. Assuming incident light at 350 nm, it differentiates between different shaped particles with radii of gyration as small as 50 nm. Such particles are well below the optical resolution limit and about the size of many types of viruses. |
