Soft Order in Physical SystemsYitzhak Rabin, Robijn Bruinsma Une Perspective Historique; Y. Ne'eman. REVIEW PAPERS: Focal Conic Domains in Smectics; P. Boltenhagen, et al. On Polymer Brushes and Blobology; A. Halperin. RESEARCH PAPERS: Polymer Physics: NonDebye Screening in Polyelectrolyte Solutions; K. Kremer, et al. Polymers in a Random Environment and Molecular Quasi-Species; L. Peliti. Crystallography: Twins in Diamond Films; D. Shechtman. Dynamics of Disordered Systems/Glasses: Dynamics of Interface Depinning in a Disordered Medium; S. Stepanow, et al. Percolation, Diffusion, and Fractons: Hull of Percolation Clusters in Three Dimensions; J.M. Debierre. Dynamics of Diffusion and Invasion Fronts; J.F. Gouyet. Surfactants and Liquid Crystals: Vesicles of High Topological Genus; X. Michalet, et al. SCIENCE AND SOCIETY: Neo-Darwinian Processes in the Evolution of Science and of Human Societies; Y. Ne'eman. 19 additional articles. Index. |
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Page 159
... particles inside a cluster.1 The hull , i.e. , the ensemble of the cluster particles in contact with the surrounding medium of white particles is one of these subsets . - 48 . In two dimensions ( 2D ) , the exact value for the hull ...
... particles inside a cluster.1 The hull , i.e. , the ensemble of the cluster particles in contact with the surrounding medium of white particles is one of these subsets . - 48 . In two dimensions ( 2D ) , the exact value for the hull ...
Page 160
... particles is site percolation with first- and second - neighbor connections for the white particles . The critical concentration for the black sites8,9 is pe≈ 0.246 whereas it is P≈ 0.175 for the white sites . 10 For a given black ...
... particles is site percolation with first- and second - neighbor connections for the white particles . The critical concentration for the black sites8,9 is pe≈ 0.246 whereas it is P≈ 0.175 for the white sites . 10 For a given black ...
Page 161
... particles was computed and we obtained the estimate 7 ' = 2.19 ± 0.01 for the distribution exponent . On the other hand , a finite - size study of the data for the radius of gyration gave d ' = 2.548 0.014 for the hull fractal dimension ...
... particles was computed and we obtained the estimate 7 ' = 2.19 ± 0.01 for the distribution exponent . On the other hand , a finite - size study of the data for the radius of gyration gave d ' = 2.548 0.014 for the hull fractal dimension ...
Contents
An Historical Perspective Une Perspective Historique | 1 |
An Introduction | 33 |
The Adhesion Between Elastomers | 57 |
Copyright | |
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adsorption aerogels aggregate demand Alexander Alexander model area density behavior binodal blobological blobs boundary brush Chem concentration constant correlation length crosslinking crystal curve cyclide decrease deformation diffusion dimensional droplet Dupin cyclide dynamics edited elastic elastomers equation equilibrium experimental exponent FCD-I FCD's Figure film finite fluctuations focal conic domains fractal dimension fracton free energy function Gaussian curvature Gennes geometry grafted growth heptane income effect income redistribution increases inflation interactions interface Kleman lattice length scales Lett Macromolecules mixture molecules monomers nematic nucleation observed obtained Order in Physical parameter particles PDMS chains percolation clusters phase separation Phys Physical Systems plane polymer price level Rabin radius random walk regime region relaxation sample scattering semi-dilute solution shape factor simulations smectic Soft Order solvent spinodal spinodal decomposition string of blobs structure surface temperature theory twin velocity volume