Dynamics at the Liquid-Vapor Interface of a Supercooled Organic Glass Former
Abstract
We investigated the dynamics near the liquid-vapor interface of the supercooled model organic glass former dibutyl phthalate by using surface-sensitive x-ray scattering techniques. Our results reveal significant enhancement of the relaxation rate over a wide length-scales range. The analysis of the dispersion relation of long-wavelength surface fluctuations yields a nonzero value of the share modulus near the free surface. At the molecular level, the dynamics in the near surface region (10-15 nm) is inhomogeneous. The mobility is decreasing with increasing distance from the free surface. Below the bulk glass transition, two distinct relaxation times were observed differing by 1 order of magnitude. The observed fast relaxation proves the existence of a high mobility liquidlike surface layer of 10 nm thickness on top of a frozen in bulk system.
- Publication:
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Physical Review Letters
- Pub Date:
- November 2010
- DOI:
- Bibcode:
- 2010PhRvL.105u5701S
- Keywords:
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- 64.70.pm;
- Liquids