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Angle-resolved light scattering

Opt. Eng. 18, 125, 1979. This article presents an analysis of the relation between angle-resolved light scattering and surface topology. [Pg.721]

Choi W, Yu CC, Pang-Yen C, Badizadegan K, Dasari R, Feld MS Field-based angle-resolved light-scattering study of sin e live cells. Opt Lett 33(14) 1596-1598, 2008. [Pg.102]

Liu, K. (1999) Kinetics of pressure-induced phase separation in polymer solutions by time and angle-resolved light scattering, M.Sc. Thesis, University of Maine, Orono, Maine, USA ( Thesis Advisor E. Kiran)... [Pg.192]

The miscibility of polymer blends can be predicted experimentally by using several techniques, including electron microscopy and time-resolved light scattering. Other techniques, such as small-angle neutron scattering, ellipsometry and NR allow the determination of interaction parameters in both miscible and immiscible systems. [Pg.305]

Figure 2.13 Schematic elastic scattering curve of a spherical colloid (e.g. a microemulsion droplet) in solution. As a rule of thumb q 1 is an approximate measure for the spatial resolution of the used scattering experiment. At low values of q (i.e. in the Cuinier region of the scattering curve) the overall size and shape of the particles as well as correlations between different particles can be monitored (typically by static and dynamic light scattering). At high values q, the internal structure of the particles, i.e. the local structure of the interfacial film is resolved (e.g. by neutron or X-ray small angle scattering and neutron spin-echo spectroscopy (NSE)). Figure 2.13 Schematic elastic scattering curve of a spherical colloid (e.g. a microemulsion droplet) in solution. As a rule of thumb q 1 is an approximate measure for the spatial resolution of the used scattering experiment. At low values of q (i.e. in the Cuinier region of the scattering curve) the overall size and shape of the particles as well as correlations between different particles can be monitored (typically by static and dynamic light scattering). At high values q, the internal structure of the particles, i.e. the local structure of the interfacial film is resolved (e.g. by neutron or X-ray small angle scattering and neutron spin-echo spectroscopy (NSE)).
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See also in sourсe #XX -- [ Pg.39 ]



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