Details of Research Outputs

In this paper we analyze the curvature corrections to the surface tension in the context of the Shan-Chen (SC) multi-component Lattice Boltzmann method (LBM). We demonstrate that the same techniques recently applied in the context of the Shan-Chen multi-phase model can be applied to multi-component mixtures. We implement, as a new application, the calculation of the surface of tension radius R through the minimization of the generalized surface tension σ[R]. In turn we are able to estimate the Tolman length, i.e., the first-order coefficient of the curvature expansion of the surface tension σ(R), as well as the higher order corrections, i.e., the curvature- and the Gaussian-rigidity coefficients. The SC multi-component model allows to describe both fully symmetric as well as asymmetric interactions among the components. By performing an extensive set of simulations we present a first example of tunable Tolman length in the mesoscopic model, being zero for symmetric interactions and different from zero otherwise. This result paves the way for controlling such interface properties which are paramount in presence of thermal fluctuations. All reported results can be independently reproduced through the “idea.deploy” framework available at https://github.com/lullimat/idea.deploy.