Breakdown of the Stokes-Einstein relation in two, three, and four dimensions

  • Shiladitya Sengupta
    Jawaharlal Nehru Centre for Advanced Scientific Research 1 Theoretical Sciences Unit, , Jakkur Campus, Bangalore 560064, India
  • Smarajit Karmakar
    TIFR Centre for Interdisciplinary Sciences 2 , 21 Brundavan Colony, Narsingi, Hyderabad 500075, India
  • Chandan Dasgupta
    Indian Institute of Science 3 Department of Physics, Centre for Condensed Matter Theory, , Bangalore 560012, India
  • Srikanth Sastry
    Jawaharlal Nehru Centre for Advanced Scientific Research 1 Theoretical Sciences Unit, , Jakkur Campus, Bangalore 560064, India

書誌事項

公開日
2013-03-14
DOI
  • 10.1063/1.4792356
公開者
AIP Publishing

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説明

<jats:p>The breakdown of the Stokes-Einstein (SE) relation between diffusivity and viscosity at low temperatures is considered to be one of the hallmarks of glassy dynamics in liquids. Theoretical analyses relate this breakdown with the presence of heterogeneous dynamics, and by extension, with the fragility of glass formers. We perform an investigation of the breakdown of the SE relation in 2, 3, and 4 dimensions in order to understand these interrelations. Results from simulations of model glass formers show that the degree of the breakdown of the SE relation decreases with increasing spatial dimensionality. The breakdown itself can be rationalized via the difference between the activation free energies for diffusivity and viscosity (or relaxation times) in the Adam-Gibbs relation in three and four dimensions. The behavior in two dimensions also can be understood in terms of a generalized Adam-Gibbs relation that is observed in previous work. We calculate various measures of heterogeneity of dynamics and find that the degree of the SE breakdown and measures of heterogeneity of dynamics are generally well correlated but with some exceptions. The two-dimensional systems we study show deviations from the pattern of behavior of the three- and four-dimensional systems both at high and low temperatures. The fragility of the studied liquids is found to increase with spatial dimensionality, contrary to the expectation based on the association of fragility with heterogeneous dynamics.</jats:p>

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