Julia Yeomans OBE FRS

CUDA simulations of active dumbbell suspensions

(2010)

Authors:

Victor Putz, Jorn Dunkel, Julia M Yeomans

Editorial: Emerging themes in soft matter: Responsive and active soft materials

Soft Matter 6:4 (2010) 703-704

Authors:

AC Balazs, JM Yeomans

CUDA simulations of active dumbbell suspensions

CHEMICAL PHYSICS 375:2-3 (2010) 557-567

Authors:

Victor B Putz, Joern Dunkel, Julia M Yeomans

Complex dynamics of knotted filaments in shear flow

EPL 92:3 (2010) ARTN 34003

Authors:

R Matthews, AA Louis, JM Yeomans

Drop dynamics on hydrophobic and superhydrophobic surfaces.

Faraday Discuss 146 (2010) 153-165

Authors:

BM Mognetti, H Kusumaatmaja, JM Yeomans

Abstract:

We investigate the dynamics of micron-scale drops pushed across a hydrophobic or superhydrophobic surface. The velocity profile across the drop varies from quadratic to linear with increasing height, indicating a crossover from a sliding to a rolling motion. We identify a mesoscopic slip capillary number which depends only on the motion of the contact line and the shape of the drop, and show that the angular velocity of the rolling increases with increasing viscosity. For drops on superhydrophobic surfaces we argue that a tank treading advance from post to post replaces the diffusive relaxation that allows the contact line to move on smooth surfaces. Hence drops move on superhydrophobic surfaces more quickly than on smooth geometries.