Fluctuations of the number of particles in a fractal medium

We study the thermal fluctuations of density and flow velocity of particles diffusing in a non-uniform medium with memory character. The fluctuation spectra are derived from the macroscopic equations with the aid of the generalized Nyquist theorem. A comparison is made with other methods.

The statistical theory is presented which describes the number of particles in some volume of a concentrated disperse system, this number being a random function of time. This theory is a natural generalization of the Smoluchowski's statistics developed for Brownian movement of independent particles

Fluctuations of the number of particles for the dilute interacting gas with Bose-Einstein condensate are considered. It is shown that in the Bogolubov theory these fluctuations are normal. The fluctuations of condensed as well as noncondensed particles are also normal both in canonical and grand can

A fractal approach was adopted to describe the behaviour of the pressure fluctuations in a bubble column. The values of the so-called Hurst exponent computed from the resealed range analysis were used to distinguish between the basic hydrodynamic regimes . The experimental data were compared with th