Julia Yeomans OBE FRS

Impalement of fakir drops

EPL 81:2 (2008) ARTN 26006

Authors:

M Reyssat, JM Yeomans, D Quere

Shearing active gels close to the isotropic-nematic transition

PHYSICAL REVIEW LETTERS 101:6 (2008) ARTN 068102

Authors:

ME Cates, SM Fielding, D Marenduzzo, E Orlandini, JM Yeomans

The collapse transition on superhydrophobic surfaces

EPL 81:3 (2008) ARTN 36003

Authors:

H Kusumaatmaja, ML Blow, A Dupuis, JM Yeomans

Hydrodynamic interaction between two swimmers at low Reynolds number.

Phys Rev Lett 99:22 (2007) 228103

Authors:

CM Pooley, GP Alexander, JM Yeomans

Abstract:

We investigate the hydrodynamic interactions between micro-organisms swimming at low Reynolds number. By considering simple model swimmers, and combining analytic and numerical approaches, we investigate the time-averaged flow field around a swimmer. At short distances the swimmer behaves like a pump. At large distances the velocity field depends on whether the swimming stroke is invariant under a combined time-reversal and parity transformation. We then consider two swimmers and find that the interaction between them consists of two parts: a passive term, independent of the motion of the second swimmer, and an active term resulting from the simultaneous swimming action of both swimmers. The swimmer-swimmer interaction is a complicated function of their relative displacement, orientation, and phase, leading to motion that can be attractive, repulsive, or oscillatory.

Steady-state hydrodynamic instabilities of active liquid crystals: Hybrid lattice Boltzmann simulations

(2007)

Authors:

D Marenduzzo, E Orlandini, ME Cates, JM Yeomans