Scattering methods intensity distribution

The methods of analyzing data for the concentration and angular dependence of the time-average scattering light intensity and the intensity-intensity time correlation function can be found in many LLS books and related literature. In this section, we will mainly concern ourselves with how to combine static and dynamic LLS results to characterize special polymers in regard not only to the average molar mass, but also to the molar mass and composition distributions. 

Diffraction patterns from amorphous materials consist of a few vague halos. Accurate measurement of the intensity distributions of these halos in reciprocal space provides information about the distribution of atoms in real space. Reviews of the experimental methods and data handling techniques for X-ray-, electron-, and neutron-scattering is given in the literature The mathematical tool which is used to relate the... 

A. V. Sechkarev and P. T. Nikolaenko. Investigation of intermolecular dynamics in the condensed states of matter by the method of vibrational spectroscopy. Part 1 Intensity distribution and intermolecular light scattering spectra in the neighborhood of the Rayleigh line. Izv. Vuz. Fiz. [U.S.S.R.), 4 104-110 (1969). 

Very recently, we also succeeded to confirm the NCS results by applying an independent method, namely electron-proton Compton scattering (ECS) [Chatzidimitriou-Dreismann 2003 (a)]. This method is completely different from NCS due to the fact that the Coulomb interaction is involved in contrast to the strong interaction involved in NCS. In addition, the apparatus with which the ECS experiments have been performed is completely different in that the incoming electron beam is monochromatic and the spectra are recorded with respect to energy loss. Therefore, every discussion about the intensity distribution of incident energies or Jacobians is irrelevant. 

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