Langevin dynamics of fluctuation-induced first-order phase transitions : self-consistent Hartree approximation
Fecha
2007Abstract
The Langevin dynamics of a system with a scalar-order parameter exhibiting a fluctuation-induced firstorder phase transition is solved within the self-consistent Hartree approximation. Competition between interactions on short and long length scales gives rise to spatial modulations in the order parameter, such as stripes in 2d and lamellae in 3d. We show that when the time scale of observation is small compared with the time needed for the formation of modulated structures, the dynamics is dom ...
The Langevin dynamics of a system with a scalar-order parameter exhibiting a fluctuation-induced firstorder phase transition is solved within the self-consistent Hartree approximation. Competition between interactions on short and long length scales gives rise to spatial modulations in the order parameter, such as stripes in 2d and lamellae in 3d. We show that when the time scale of observation is small compared with the time needed for the formation of modulated structures, the dynamics is dominated by a standard ferromagnetic contribution plus a correction term. However, once these structures are formed, the long-time dynamics is no longer purely ferromagnetic. After a quench from a disordered state to low temperatures, the system develops growing domains of stripes lamellae. Due to the character of the transition, the paramagnetic phase is metastable at all finite temperatures, and the correlation length diverges only at T=0. Consequently, the temperature is a relevant variable: for T >0 the system ends up forming domains of stripes with a finite correlation length while for T=0 a scaling behavior in space and time, characteristic of smectic order, is obtained. ...
En
Physical review. B, Condensed matter and materials physics. Woodbury. Vol. 75, no. 6 (Feb. 2007), 064108 12p.
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