Mean-field kinetic theory approach to Langmuir evaporation of polyatomic liquids

2020 ◽  
Vol 32 (9) ◽  
pp. 093314
Author(s):  
Sergiu Busuioc ◽  
Livio Gibelli
Keyword(s):  
Kinetic Theory ◽  
Mean Field ◽  
Theory Approach ◽  
Polyatomic Liquids

scholarly journals Mean-field kinetic theory approach to evaporation of a binary liquid into vacuum

2018 ◽  
Vol 3 (5) ◽  
Author(s):  
A. Frezzotti ◽  
L. Gibelli ◽  
D. A. Lockerby ◽  
J. E. Sprittles
Keyword(s):  
Kinetic Theory ◽  
Mean Field ◽  
Theory Approach ◽  
Binary Liquid

Analysis of binary and ternary granular mixtures behavior using the kinetic theory approach

2005 ◽  
Vol 151 (1-3) ◽  
pp. 117-125 ◽  
Author(s):  
Hadjira Iddir ◽  
Hamid Arastoopour ◽  
Christine M. Hrenya
Keyword(s):  
Kinetic Theory ◽  
Theory Approach ◽  
Granular Mixtures

scholarly journals Calorimetric glass transition in a mean-field theory approach

2015 ◽  
Vol 112 (8) ◽  
pp. 2361-2366 ◽  
Author(s):  
Manuel Sebastian Mariani ◽  
Giorgio Parisi ◽  
Corrado Rainone
Keyword(s):  
Mean Field Theory ◽  
Mean Field ◽  
Supercooled Liquid ◽  
Analytic Solutions ◽  
Theory Approach ◽  
Mean Field Model ◽  
Thermalization Time ◽  
Glass Forming ◽  
Heating And Cooling ◽  
Spatial Dimensions

The study of the properties of glass-forming liquids is difficult for many reasons. Analytic solutions of mean-field models are usually available only for systems embedded in a space with an unphysically high number of spatial dimensions; on the experimental and numerical side, the study of the properties of metastable glassy states requires thermalizing the system in the supercooled liquid phase, where the thermalization time may be extremely large. We consider here a hard-sphere mean-field model that is solvable in any number of spatial dimensions; moreover, we easily obtain thermalized configurations even in the glass phase. We study the 3D version of this model and we perform Monte Carlo simulations that mimic heating and cooling experiments performed on ultrastable glasses. The numerical findings are in good agreement with the analytical results and qualitatively capture the features of ultrastable glasses observed in experiments.

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