A kinetic Ising model study of dynamical correlations in confined fluids: Emergence of both fast and slow time scales


Autoria(s): Biswas, Rajib; Bagchi, Biman
Data(s)

28/08/2010

Resumo

Experiments and computer simulation studies have revealed existence of rich dynamics in the orientational relaxation of molecules in confined systems such as water in reverse micelles, cyclodextrin cavities, and nanotubes. Here we introduce a novel finite length one dimensional Ising model to investigate the propagation and the annihilation of dynamical correlations in finite systems and to understand the intriguing shortening of the orientational relaxation time that has been reported for small sized reverse micelles. In our finite sized model, the two spins at the two end cells are oriented in the opposite directions to mimic the effects of surface that in real system fixes water orientation in the opposite directions. This produces opposite polarizations to propagate inside from the surface and to produce bulklike condition at the center. This model can be solved analytically for short chains. For long chains, we solve the model numerically with Glauber spin flip dynamics (and also with Metropolis single-spin flip Monte Carlo algorithm). We show that model nicely reproduces many of the features observed in experiments. Due to the destructive interference among correlations that propagate from the surface to the core, one of the rotational relaxation time components decays faster than the bulk. In general, the relaxation of spins is nonexponential due to the interplay between various interactions. In the limit of strong coupling between the spins or in the limit of low temperature, the nature of relaxation of the spins undergoes a qualitative change with the emergence of a homogeneous dynamics where decay is predominantly exponential, again in agreement with experiments. (C) 2010 American Institute of Physics. doi: 10.1063/1.3474948]

Formato

application/pdf

Identificador

http://eprints.iisc.ernet.in/33135/1/model.pdf

Biswas, Rajib and Bagchi, Biman (2010) A kinetic Ising model study of dynamical correlations in confined fluids: Emergence of both fast and slow time scales. In: Journal of Chemical Physics, 133 (8).

Publicador

American Institute of Physics

Relação

http://jcp.aip.org/resource/1/jcpsa6/v133/i8/p084509_s1

http://eprints.iisc.ernet.in/33135/

Palavras-Chave #Solid State & Structural Chemistry Unit
Tipo

Journal Article

PeerReviewed