Kusmartsev_Samsonetal.pdf (966.42 kB)
Thermodynamics of entropy-driven phase transformations
journal contribution
posted on 2006-04-26, 17:37 authored by A. Radosz, K. Ostasiewicz, P. Magnuszewski, J. Damczyk, L. Radosiński, F.V. Kusmartsev, J.H. SamsonThermodynamic properties of one-dimensional lattice models exhibiting entropy-driven phase transformations are discussed in quantum and classical regimes. Motivated by the multistability of compounds exhibiting photoinduced phase transitions, we consider systems with asymmetric, double, and triple well on-site potential. One finds that among a variety of regimes, quantum versus classical, discrete versus continuum, a key feature is asymmetry distinguished as a "shift" type and "shape" type in limiting cases. The behavior of the specific heat indicates one phase transformation in a "shift" type and a sequence of two phase transformations in "shape"-type systems. Future analysis in higher dimensions should allow us to identify which of these entropy-driven phase transformations would evolve into phase transitions of the first order.
History
School
- Science
Department
- Physics
Pages
989610 bytesCitation
RADOSZ, R et al, 2006. Thermodynamics of entropy-driven phase transformations. Physical Review E, 026127Publisher
© American Physical SocietyPublication date
2006Notes
This article has been published in the journal, Physical Review E [© American Physical Society]. It is also available at: http://link.aps.org/abstract/PRE/v73/e026127.Language
- en