Fluctuation–dissipation–dispersion relations for a time and space nonlocal plasma

Using the Langevin approach and the multiscale technique, a kinetic theory of the time and space nonlocal fluctuations in the collisional plasma is constructed. In local equilibrium, a generalized version of the Callen–Welton theorem is derived. It is shown that not only the dissipation, but also the time and space derivatives of the dispersion, determine the amplitude and the width of the spectrum lines of the electrostatic field fluctuations, as well as the form factor. There appear to be significant differences with respect to the nonuniform plasma. In the kinetic regime, the form factor is more sensible to space gradient than the spectral function of the electrostatic field fluctuations. As a result of inhomogeneity, these proprieties became asymmetric with respect to the inversion of the frequency sign. The differences in amplitude of peaks could become a new tool with which to diagnose slow time and space variations in the plasma. © 2004 Wiley Periodicals, Inc. Int J Quantum Chem, 2004