Lattice hard spheres: Difference between revisions

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'''Lattice hard spheres''' refers to athermal [[lattice gas|lattice gas]] models,  in which pairs
'''Lattice hard spheres''' (or '''Lattice hard disks''') refers to athermal [[lattice gas|lattice gas]] models,  in which pairs of sites separated by less than some (short) distance, <math>  \sigma </math>, cannot be simultaneously occupied.
of sites separated by less than some short distance <math>  \sigma </math> cannot be simultaneously occupied.
== Brief description of the models ==
Basically the differences between lattice hard spheres and the standard [[Lattice gas|lattice gas]] model ([[Ising Models|Ising model]]) are the following:
*An occupied site excludes the occupation of some of the neighbouring sites.
*No energy interactions between pairs  of occupied sites -apart of the hard core interactions- are considered.
These systems exhibit phase (order-disorder) transitions.
== Three-dimensional lattices ==
For some results of three-dimensional lattice hard sphere systems see
<ref>[http://dx.doi.org/10.1063/1.2008253  A. Z. Panagiotopoulos, "Thermodynamic properties of lattice hard-sphere models",  Journal of Chemical Physics '''123''' 104504 (2005)]</ref> (on a [[Building up a simple cubic lattice |simple cubic lattice]]). The model defined on  a simple cubic lattice with exclusion of only the nearest neighbour positions of an occupied site presents a continuous transition.
If next-nearest neighbours are also excluded then the transition becomes [[First-order transitions |first order]].
== Two-dimensional lattices ==
=== Square lattice  ===
The model with exclusion of nearest neighbours presents a continuous transition. The critical behaviour at the transition
corresponds to the same Universality class of the two-dimensional [[Ising model|Ising Model]], See Ref
<ref>[http://dx.doi.org/10.1103/PhysRevB.62.2134  Da-Jiang Liu and  J. W. Evans, "Ordering and percolation transitions for hard squares: Equilibrium versus nonequilibrium models for adsorbed layers with c(2×2) superlattice ordering", Physical Review  B '''62''', pp 2134 - 2145 (2000)] </ref> for a simulation study of this system.
For results of two-dimensional systems (lattice hard disks) with different exclusion criteria
on a [[building up a square lattice|square lattice]] see <ref>[http://dx.doi.org/10.1063/1.2539141 Heitor C. Marques Fernandes, Jeferson J. Arenzon, and Yan Levin "Monte Carlo simulations of two-dimensional hard core lattice gases",  Journal of Chemical Physics '''126''' 114508 (2007)]</ref>.


Basically the differences with the standard [[Lattice gas|lattice gas]] model ([[Ising Models|Ising model]]) are:
=== [[Building up a triangular lattice|Triangular lattice]] ===
The [[hard hexagon lattice model|hard hexagon lattice model]] belongs to this kind of model. In this model an occupied site excluded the occupation of nearest neighbour positions. This model exhibits a continuous transition, and  has been solved exactly  (See references in the entry: [[hard hexagon lattice model|hard hexagon lattice model]]).
*An occupied site excludes the occupation of some of the neighboring sites.
Other models defined on the triangular lattice (with more excluded positions) have been studied theoretically and by [[Monte Carlo  | Monte Carlo simulation]]
 
<ref>[http://dx.doi.org/10.1103/PhysRevB.30.5339 N. C. Bartelt and T. L. Einstein, "Triangular lattice gas with first- and second-neighbor exclusions: Continuous transition in the four-state Potts universality class", Physical Review B '''30''' pp. 5339-5341 (1984)]</ref>
*No energy interactions between pairs of occupied sites are considered.
<ref>[http://dx.doi.org/10.1103/PhysRevB.39.2948 Chin-Kun Hu and Kit-Sing Mak, "Percolation and phase transitions of hard-core particles on lattices: Monte Carlo approach", Physical Review B '''39''' pp. 2948-2951 (1989)]</ref>
 
<ref>[http://dx.doi.org/10.1103/PhysRevE.78.031103 Wei Zhang Youjin Den,  ''Monte Carlo study of the triangular lattice gas with first- and second-neighbor exclusions'', Physical  Review  E '''78''' 031103 (2008)]</ref>.
These systems exhibit phase (order-disorder) transitions
It seems that the model with first and second neighbour exclusion presents also a continuous transition, whereas if third neighbours are also excluded the transition becomes first order.
 
*See Ref. 1 for some results of three-dimensional lattice hard sphere systems (on a simple cubic lattice)
 
*See Ref 2. for results of two-dimensional systems (lattice hard disks) on a square lattice.


== References ==
== References ==
 
<references/>
#[http://dx.doi.org/10.1063/1.2008253  A. Z. Panagiotopoulos, "Thermodynamic properties of lattice hard-sphere models",  J. Chem. Phys. 123, 104504 (2005) ]
[[category: models]]
#[http://dx.doi.org/10.1063/1.2539141 Heitor C. Marques Fernandes, Jeferson J. Arenzon, and Yan Levin "Monte Carlo simulations of two-dimensional hard core lattice gases"  J. Chem. Phys. 126, 114508 (2007).]

Latest revision as of 15:22, 22 June 2009

Lattice hard spheres (or Lattice hard disks) refers to athermal lattice gas models, in which pairs of sites separated by less than some (short) distance, , cannot be simultaneously occupied.

Brief description of the models[edit]

Basically the differences between lattice hard spheres and the standard lattice gas model (Ising model) are the following:

  • An occupied site excludes the occupation of some of the neighbouring sites.
  • No energy interactions between pairs of occupied sites -apart of the hard core interactions- are considered.

These systems exhibit phase (order-disorder) transitions.

Three-dimensional lattices[edit]

For some results of three-dimensional lattice hard sphere systems see [1] (on a simple cubic lattice). The model defined on a simple cubic lattice with exclusion of only the nearest neighbour positions of an occupied site presents a continuous transition. If next-nearest neighbours are also excluded then the transition becomes first order.

Two-dimensional lattices[edit]

Square lattice[edit]

The model with exclusion of nearest neighbours presents a continuous transition. The critical behaviour at the transition corresponds to the same Universality class of the two-dimensional Ising Model, See Ref [2] for a simulation study of this system. For results of two-dimensional systems (lattice hard disks) with different exclusion criteria on a square lattice see [3].

Triangular lattice[edit]

The hard hexagon lattice model belongs to this kind of model. In this model an occupied site excluded the occupation of nearest neighbour positions. This model exhibits a continuous transition, and has been solved exactly (See references in the entry: hard hexagon lattice model). Other models defined on the triangular lattice (with more excluded positions) have been studied theoretically and by Monte Carlo simulation [4] [5] [6]. It seems that the model with first and second neighbour exclusion presents also a continuous transition, whereas if third neighbours are also excluded the transition becomes first order.

References[edit]