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ZB 10 - Soft Condensed Matter (R. Holyst)

We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!
We are different, but we all do great Science; and we have a lot of fun doing it!

Publication

Collapse of a nanoscopic void triggered by a spherically symmetric traveling sound wave

Author(s): Holyst, Robert and Litniewski, Marek and Garstecki, Piotr
Title: Collapse of a nanoscopic void triggered by a spherically symmetric traveling sound wave
Abstract: Molecular-dynamics simulations of the Lennard-Jones fluid (up to 10(7) are used to analyze the collapse of a nanoscopic bubble. The is triggered by a traveling sound wave that forms a shock wave the interface. The peak temperature T-max in the focal point of the is approximately Sigma R-0(a), where Sigma is the surface of energy injected at the boundary of the container of radius
Journal: PHYSICAL REVIEW E
Volume: 85
ID: ISI:000304065100004
Year: 2012
DOI: 10.1103/PhysRevE.85.056303