Oleg A. Vasilyev scite author profile

The confinement of critical fluctuations in soft media induces critical Casimir forces acting on the confining surfaces. The temperature and geometry dependences of such forces are characterized by universal scaling functions. A novel approach is presented to determine them for films via Monte Carlo simulations of lattice models. The method is based on an integration scheme of free energy differences. Our results for the Ising and the XY universality class compare favourably with corresponding experimental results for wetting layers of classical binary liquid mixtures and of 4 He, respectively.

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Erratum: Universal scaling functions of critical Casimir forces obtained by Monte Carlo simulations [Phys. Rev. E79, 041142 (2009)]

Vasilyev¹,

Gambassi²,

Maciołek³

et al. 2009

Phys. Rev. E

206

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Universal scaling functions of critical Casimir forces obtained by Monte Carlo simulations

et al. 2009

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Effective Casimir forces induced by thermal fluctuations in the vicinity of bulk critical points are studied by means of Monte Carlo simulations in three-dimensional systems for film geometries and within the experimentally relevant Ising and XY universality classes. Several surface universality classes of the confining surfaces are considered, some of which are relevant for recent experiments. A novel approach introduced previously [EPL 80, 60009 (2007)], based inter alia on an integration scheme of free energy differences, is utilized to compute the universal scaling functions of the critical Casimir forces in the critical range of temperatures above and below the bulk critical temperature. The resulting predictions are compared with corresponding experimental data for wetting films of fluids and with available theoretical results.

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New method for numerical simulation of a nonstationary potential flow of incompressible fluid with a free surface

Захаров

Dyachenko

Vasilyev

2002

European Journal of Mechanics - B/Fluids

162

151

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Oleg A. Vasilyev

Monte Carlo simulation results for critical Casimir forces

Erratum: Universal scaling functions of critical Casimir forces obtained by Monte Carlo simulations [Phys. Rev. E79, 041142 (2009)]

Universal scaling functions of critical Casimir forces obtained by Monte Carlo simulations

New method for numerical simulation of a nonstationary potential flow of incompressible fluid with a free surface

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