GENERALIZED PARAMETRIC MODEL FOR PHASE TRANSITIONS IN THE PRESENCE OF AN INTERMEDIATE METASTABLE STATE AND ITS APPLICATION
Files
Date
2017
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
The previously proposed model for the kinetics of first-order phase transitions (Barsuk et al., 2013) is generalized for r order and m control parameters. Bifurcation and stability analyses of the equilibrium states in thermodynamic systems described by the Landau-type kinetic potential with two order parameters is performed both in the absence of an external field, and in the presence of constant and periodic external fields. Kinetics of thermodynamic systems described by such potential in a small neighborhood of the equilibrium states is also studied. Mean transition time for lysozyme protein in dependence of control parameters is obtained based on the developed model. A detailed bifurcation analysis of the cubic equation solutions is given in Appendix.
Description
Keywords
bifurcation and stability analysis, landau-type potential, lysozyme, metastable state, nucleation, phase transitions, bifuraction theory
Citation
PALADI, F., BARSUK, A. Generalized parametric model for phase transitions in the presence of an intermediate metastable state and its application. In: Physica A. 2017, Vol. 487, p. 74-92. ISSN 0378-4371.