In this paper, we describe the way to set up the floppy-box Monte Carlo (FBMC) method [L. Filion, M. Marechal, B. van Oorschot, D. Pelt, F. Smallenburg, and M. Dijkstra, Phys. Rev. Lett. 103, 188302 (2009)10.1103/PhysRevLett.103.188302] to predict crystal-structure candidates for colloidal particles. The algorithm is explained in detail to ensure that it can be straightforwardly implemented on the basis of this text. The handling of hard-particle interactions in the FBMC algorithm is given special attention, as (soft) short-range and semi-long-range interactions can be treated in an analogous way. We also discuss two types of algorithms for checking for overlaps between polyhedra, the method of separating axes and a triangular-tessellation ...
For hard anisotropic particles the formation of a wide variety of fascinating crystal and liquid-cry...
In this thesis, we study the phase and vacancy behaviour of hard slanted cubes (right rhombic prisms...
We present the phase diagram of hard snowman-shaped particles calculated using Monte Carlo simulatio...
We present an efficient and robust method based on Monte Carlo simulations for predicting crystal st...
We consider several patchy particle models that have been proposed in literature and we investigate ...
In many cases, the stability of complex structures in colloidal systems is enhanced by a competition...
Using simulations we study the phase behavior of a family of hard spherotetrahedra, a shape that int...
This dissertation explores the use of packings of frictionless hard particles as models of the micro...
In this thesis, we examine the phase behaviour and nucleation in a variety of hard-sphere systems. I...
We describe the implementation of a Monte Carlo basin hopping (BH) global optimization procedure for...
This review discusses the recent progress that has been made in the application of computer simulati...
Contains fulltext : 60517.pdf (publisher's version ) (Closed access)A versatile cr...
In the pharmaceutical industry, the control of a new drug’s crystal form is key to optimise its form...
Colloidal particles with anisotropic interactions can be synthesized by controlling the shape of the...
A review of computer simulation studies on crystal growth in hard-sphere systems is presented. A his...
For hard anisotropic particles the formation of a wide variety of fascinating crystal and liquid-cry...
In this thesis, we study the phase and vacancy behaviour of hard slanted cubes (right rhombic prisms...
We present the phase diagram of hard snowman-shaped particles calculated using Monte Carlo simulatio...
We present an efficient and robust method based on Monte Carlo simulations for predicting crystal st...
We consider several patchy particle models that have been proposed in literature and we investigate ...
In many cases, the stability of complex structures in colloidal systems is enhanced by a competition...
Using simulations we study the phase behavior of a family of hard spherotetrahedra, a shape that int...
This dissertation explores the use of packings of frictionless hard particles as models of the micro...
In this thesis, we examine the phase behaviour and nucleation in a variety of hard-sphere systems. I...
We describe the implementation of a Monte Carlo basin hopping (BH) global optimization procedure for...
This review discusses the recent progress that has been made in the application of computer simulati...
Contains fulltext : 60517.pdf (publisher's version ) (Closed access)A versatile cr...
In the pharmaceutical industry, the control of a new drug’s crystal form is key to optimise its form...
Colloidal particles with anisotropic interactions can be synthesized by controlling the shape of the...
A review of computer simulation studies on crystal growth in hard-sphere systems is presented. A his...
For hard anisotropic particles the formation of a wide variety of fascinating crystal and liquid-cry...
In this thesis, we study the phase and vacancy behaviour of hard slanted cubes (right rhombic prisms...
We present the phase diagram of hard snowman-shaped particles calculated using Monte Carlo simulatio...