Ramp model: Difference between revisions
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This solid phase presents re-entrant melting, i.e. this solid melts into the fluid phase as the pressure is increased. | This solid phase presents re-entrant melting, i.e. this solid melts into the fluid phase as the pressure is increased. | ||
=== Lattice Gas | === Repulsive Ramp Lattice Gas Model === | ||
Recently, similar behaviour has been found in a three-dimensional [[lattice gas| | Recently, similar behaviour has been found in a three-dimensional Repulsive | ||
Ramp [[lattice gas|Lattice Gas]] model | |||
<ref> | <ref> | ||
[http://dx.doi.org/10.1080/00268970902729269 Johan Skule Hoye, Enrique Lomba, and Noe Garcia Almarza, "One- and three-dimensional lattice models with two repulsive ranges: simple systems with complex phase behaviour", Molecular Physics ''iFirst'' (2009)] | [http://dx.doi.org/10.1080/00268970902729269 Johan Skule Hoye, Enrique Lomba, and Noe Garcia Almarza, "One- and three-dimensional lattice models with two repulsive ranges: simple systems with complex phase behaviour", Molecular Physics ''iFirst'' (2009)] |
Revision as of 16:30, 6 March 2009
The ramp model, proposed by Jagla [1] and sometimes known as the Jagla model, is described by:
where is the intermolecular pair potential, , and .
Graphically, one has:
where the red line represents an attractive implementation of the model, and the green line a repulsive implementation.
Critical points
For the particular case , the liquid-vapour critical point is located at [2]:
and the liquid-liquid critical point:
Repulsive Ramp Model
In the repulsive ramp case, where , neither liquid-vapor nor liquid-liquid stable equilibria occur [2]. However, for this model a low density crystalline phase has been found. This solid phase presents re-entrant melting, i.e. this solid melts into the fluid phase as the pressure is increased.
Repulsive Ramp Lattice Gas Model
Recently, similar behaviour has been found in a three-dimensional Repulsive Ramp Lattice Gas model [3]
The system is defined on a simple cubic lattice. The interaction is that of a Lattice hard sphere model with exclusion of nearest neighbors of occupied positions plus a repulsive interaction with next-to-nearest neighbors.
The potential energy of the system is then given by:
where ; refers to all the pairs of sites that are second neighbors, and indicates the occupation of site (0 indicates empty site, 1 indicates occupied site).
See also
References
- ↑ E. A. Jagla "Core-softened potentials and the anomalous properties of water", Journal of Chemical Physics' 111 pp. 8980-8986 (1999)
- ↑ 2.0 2.1
E. Lomba, N. G. Almarza, C. Martin, C. McBride "Phase behaviour of attractive and repulsive ramp fluids: integral equation and computer simulation studies", Journal of Chemical Physics 126 244510 (2007)
Cite error: Invalid
<ref>
tag; name "lomba" defined multiple times with different content - ↑ Johan Skule Hoye, Enrique Lomba, and Noe Garcia Almarza, "One- and three-dimensional lattice models with two repulsive ranges: simple systems with complex phase behaviour", Molecular Physics iFirst (2009)
Related literature
- Limei Xu, Sergey V. Buldyrev, C. Austen Angell, and H. Eugene Stanley "Thermodynamics and dynamics of the two-scale spherically symmetric Jagla ramp model of anomalous liquids", Physical Review E 74 031108 (2006)
- Limei Xu, Sergey V. Buldyrev, Nicolas Giovambattista, C. Austen Angell, and H. Eugene Stanley "A monatomic system with a liquid-liquid critical point and two distinct glassy states", Journal of Chemical Physics 130 054505 (2009)