Structural transition in two-dimensional Hertzian spheres in the presence of random pinning
E. N. Tsiok, Yu. D. Fomin, E. A. Gaiduk, V. N. Ryzhov
Abstract
Using molecular dynamics simulation we have investigated the influence of random pinning on the phase diagram and melting scenarios of a two-dimensional system with the Hertz potential for α=5/2. It has been shown that random pinning can cardinally change the mechanism of first-order transition between the different crystalline phases (triangular and square) by virtue of generating hexatic and tetratic phases: a triangular crystal to hexatic transition is of the continuous Berezinskii-Kosterlitz-Thouless (BKT) type, a hexatic to tetratic transition is of first order, and finally, there is a continuous BKT-type transition from tetratic to the square crystal.
Topics & Concepts
SPHERESStatistical physicsCondensed matter physicsMaterials sciencePhysicsAstronomyMaterial Dynamics and PropertiesTheoretical and Computational PhysicsAdvanced Materials and Mechanics