Structural arrest in dense star-polymer solutions

Structural arrest in dense star-polymer solutions

The dynamics of star polymers is investigated via extensive molecular and Brownian dynamics simulations for a large range of functionality f and packing fraction eta. The calculated isodiffusivity curves display both minima and maxima as a function of eta and minima as a function of f. Simulation re...

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Veröffentlicht in:Physical review letters 2003-06, Vol.90 (23), p.238301-238301, Article 238301
Hauptverfasser: Foffi, G, Sciortino, F, Tartaglia, P, Zaccarelli, E, Lo Verso, F, Reatto, L, Dawson, K A, Likos, C N
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Sprache:eng
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Zusammenfassung:The dynamics of star polymers is investigated via extensive molecular and Brownian dynamics simulations for a large range of functionality f and packing fraction eta. The calculated isodiffusivity curves display both minima and maxima as a function of eta and minima as a function of f. Simulation results are compared with theoretical predictions based on different approximations for the structure factor. In particular, the ideal glass transition line predicted by mode-coupling theory is shown to exactly track the isodiffusivity curves, offering a theoretical understanding for the observation of disordered arrested states in star-polymer solutions.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.90.238301