Electric fields turn emulsions into yield-stress fluids at high frequencies with scale-independent properties and create short-lived banded structures at low frequencies that lose memory within seconds.
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The paper reviews key computational methods for ultrastable glasses, discusses their efficiency and limitations, and compares the stability levels achieved.
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Insights into the electrorheological and electrohydrodynamic regimes in electrically driven emulsion
Electric fields turn emulsions into yield-stress fluids at high frequencies with scale-independent properties and create short-lived banded structures at low frequencies that lose memory within seconds.
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Computational Methods towards Ultrastable Glasses
The paper reviews key computational methods for ultrastable glasses, discusses their efficiency and limitations, and compares the stability levels achieved.