III. Tsallis Theory, the Maximum Entropy Principle, and Evolution Equations

Abstract: Abstract. The generalized thermostatistics advanced by Tsallis in order to treat nonextensive systems has greatly increased the range of possible applications of statistical mechanics to the description of natural phenomena. Here we consider some aspects of the relationship between Tsallis' theory and Jaynes' maximum entropy (MaxEnt) principle. We review some universal properties of general thermostatistical formalisms based on an entropy extremalization principle. We explain how Tsallis formalism provides a u… Show more

“…The foregoing rate equations can be further incorporated into a generalised nonlinear advection-dispersion-reaction equation (equivalent to a nonlinear Fokker-Planck equation with reaction) of the following type (c.f. Tsallis & Bukman, 1996;Plastino et al, 2000;Lenzi et al, 2001;Plastino, 2001;Frank, 2002):…”

q-Exponential structure of arbitrary-order reaction kinetics

“…The foregoing rate equations can be further incorporated into a generalised nonlinear advection-dispersion-reaction equation (equivalent to a nonlinear Fokker-Planck equation with reaction) of the following type (c.f. Tsallis & Bukman, 1996;Plastino et al, 2000;Lenzi et al, 2001;Plastino, 2001;Frank, 2002):…”

q-Exponential structure of arbitrary-order reaction kinetics

“…If the time derivatives of the equations of constraint constitute a closed set of differential equations the static solution may be viewed as the solution to the MaxEnt equations at a given time and the time dependent solutions are obtained by replacing λ i by λ i (t) which satisfy the time dependent equations of constraint ( [37]).…”

Applying the Maximum Entropy Technique to the Gaussian Dispersion Plume Model

Applying the Maximum Entropy Technique to the Gaussian Dispersion Plume Model