Julia Yeomans OBE FRS

Modelling the corrugation of the three-phase contact line perpendicular to a chemically striped substrate

(2009)

Authors:

FJ Montes Ruiz-Cabello, H Kusumaatmaja, MA Rodriguez-Valverde, JM Yeomans, MA Cabrerizo-Vilchez

Anisotropic hysteresis on ratcheted superhydrophobic surfaces

(2009)

Authors:

H Kusumaatmaja, JM Yeomans

Kinetics of Phase Transitions

Chapter in , CRC Press (2009)

Using the Lattice Boltzmann Algorithm to Explore Phase Ordering in Fluids

Chapter in Kinetics of Phase Transitions, Taylor & Francis (2009) 121-152

Authors:

Julia Yeomans, Giuseppe Gonnella

Knot-controlled ejection of a polymer from a virus capsid.

Phys Rev Lett 102:8 (2009) 088101

Authors:

Richard Matthews, AA Louis, JM Yeomans

Abstract:

We present a numerical study of the effect of knotting on the ejection of flexible and semiflexible polymers from a spherical, viruslike capsid. The polymer ejection rate is primarily controlled by the knot, which moves to the hole in the capsid and then acts as a ratchet. Polymers with more complex knots eject more slowly and, for large knots, the knot type, and not the flexibility of the polymer, determines the rate of ejection. We discuss the relation of our results to the ejection of DNA from viral capsids and conjecture that this process has the biological advantage of unknotting the DNA before it enters a cell.