# Transitions between imperfectly ordered crystalline structures: A phase switch Monte Carlo study

### Reference:

Wilding, N., 2012. Transitions between imperfectly ordered crystalline structures: A phase switch Monte Carlo study. *Physical Review E (PRE)*, 85, 056703.

### Related documents:

| PDF (Wilding_PRE_2012_85_e056703.pdf) - Requires a PDF viewer such as GSview, Xpdf or Adobe Acrobat Reader Download (5MB) | Preview |

### Related URLs:

### Abstract

A model for two-dimensional colloids confined laterally by “structured boundaries” (i.e., ones that impose a periodicity along the slit) is studied by Monte Carlo simulations. When the distance D between the confining walls is reduced at constant particle number from an initial value D0, for which a crystalline structure commensurate with the imposed periodicity fits, to smaller values, a succession of phase transitions to imperfectly ordered structures occur. These structures have a reduced number of rows parallel to the boundaries (from n to n − 1 to n − 2, etc.) and are accompanied by an almost periodic strain pattern, due to “soliton staircases” along the boundaries. Since standard simulation studies of such transitions are hampered by huge hysteresis effects, we apply the phase switch Monte Carlo method to estimate the free energy difference between the structures as a function of the misfit between D and D0, thereby locating where the transitions occur in equilibrium. For comparison, we also obtain this free energy difference from a thermodynamic integration method: The results agree, but the effort required to obtain the same accuracy as provided by phase switch Monte Carlo would be at least three orders of magnitude larger. We also show for a situation where several “candidate structures” exist for a phase, that phase switch Monte Carlo can clearly distinguish the metastable structures from the stable one. Finally, applying the method in the conjugate statistical ensemble (where the normal pressure conjugate to D is taken as an independent control variable), we show that the standard equivalence between the conjugate ensembles of statistical mechanics is violated.

### Details

Item Type | Articles | ||||

Creators | Wilding, N. | ||||

DOI | 10.1103/PhysRevE.85.056703 | ||||

Related URLs |
| ||||

Departments | Faculty of Science > Physics | ||||

Publisher Statement | Wilding_PRE_2012_85_e056703.pdf: Wilding, N., 2012. Transitions between imperfectly ordered crystalline structures: A phase switch Monte Carlo study. Physical Review E (PRE), 85, 056703. Copyright 2012 by the American Physical Society. | ||||

Refereed | Yes | ||||

Status | Published | ||||

ID Code | 30248 |

### Export

### Actions (login required)

View Item |