Julia Yeomans OBE FRS

Lattice boltzmann simulations of wetting and drop dynamics

Understanding Complex Systems 2010 (2010) 241-274

Authors:

H Kusumaatmaja, JM Yeomans

Abstract:

Recently there has been a huge effort in the scientific community to miniaturise fluidic operations to micron and nanoscales [1]. This has changed the way scientists think about fluids, and it potentially has far-reaching technological implications, analogous to the miniaturization of electronics. The goal is to engineer "lab on a chip" devices, where numerous biological and chemical experiments can be performed rapidly, and in parallel, while consuming little reagent. © 2010 Springer-Verlag Berlin Heidelberg.

Using electrowetting to control interface motion in patterned microchannels

(2010)

Authors:

BM Mognetti, JM Yeomans

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