CURRICULUM VITAE JULIA MARY YEOMANS

Address: Centre for Theoretical Physics, 1 Keble Road, Oxford OX1 3NP, UK Telephone: 44 (0)1865 273992 Fax: 44 (0)1865 273947 Email: [email protected] Home page: http://www-thphys.physics.ox.ac.uk/users/JuliaYeomans Nationality: British. Family: Married, 4 daughters, ages 7,17,20,22

Qualifications: Diploma, Teaching and Learning in Higher Education (Oxford University) 2000. D. Phil.Thesis, Critical Phenomena of Disordered Systems (Oxford University) 1979. B.A. Physics, First class honours (Oxford University), 1976.

Positions held: 2002 – Professor of Physics, 1998 – 02 Reader in Physics, University of Oxford 1995 – 98 University Lecturer, University of Oxford 1983 – Pauline Chan Fellow and Tutor in Physics, St. Hilda's College, Oxford 1981 – 83 Lecturer, Department of Physics, Southampton University 1979 – 81 Postdoctoral Research Associate, , USA

Prizes and awards: University of Oxford Teaching Award, 2008 EPSRC Advanced Fellowship, 1990-95 Scott Prize, Oxford University, 1976

Visiting positions: 2007 Inaugural CMMS Distinguished Lecturer, University of Pittsburgh 1995 Visiting Professor, University of Padua, Italy 1992 Visiting Professor, Catholic University of Leuven

Recent international advisory appointments: Academy of Finland, Computational Science Research Programme Panel Nordita, Professorial Appointment, International Expert Helsinki University, Professorial Appointment, International Expert University of Geneva, Professorial Appointment, International Expert FOM, Netherlands, Grant Prioritization Panel Helsinki Institute of Physics, Biological Physics, Reviewer

Major lectures at international meetings: Sept 2010 Plenary lecture, 23rd General Conference EPS Condensed Matter Division. July 2010 23rd International Conference, Poland. June 2009 Emergence in Chemical Systems, Alaska. June 2009 Gordon Conference, Liquid Crystals, New England JULIA YEOMANS PUBLICATIONS

BOOK

Statistical Mechanics of Phase Transitions, J.M. Yeomans, Oxford Univer- sity Press, 1992.

PAPERS IN REFEREED JOURNALS

169. Imbibition through an array of triangular posts, M. Blow, H. Kusumaat- maja and J.M. Yeomans, J. Phys. Cond. Mat., in press (invited paper for special issue, Dynamics of Wetting).

168. Flow injection of polymers into nanopores, A.P. Markesteijn, O.B. Usta, I. Ali, A.C. Balazs and J.M. Yeomans, Soft Matter, in press.

167. Mesoscale modelling of colloids in chiral nematics, M. Ravnik, G.P. Alexander, J.M. Yeomans and S. Zumer, Faraday Discussions, in press.

166. Hydrodynamic phase locking of model microswimmers, V.B. Putz and J.M. Yeomans, J. Stat. Phys., in press (invited paper for special issue to mark the 100th Statistical Mechanics conference).

165. Anisotropic hysteresis on ratcheted superhydrophobic surfaces, H. Kusumaatmaja and J.M. Yeomans, Soft Matter 5 2704 (2009).

164. Knot-controlled ejection of a polymer from a virus capsid, R. Matthews, A.A. Louis and J.M. Yeomans, Phys. Rev. Lett. 102 088101 (2009).

163. Spontaneous flow states in active nematics: A unified picture, S.A. Edwards and J.M. Yeomans, EPL 85 18008 (2009).

162. Shear and extensional deformation of droplets containing polymers and nanoparticles, O.B. Usta, D. Perchak, A. Clarke, J.M. Yeomans and A.C. Balazs, J. Chem. Phys. 130 234905 (2009).

161. Anisotropy of water droplets on single rectangular posts, C. Sempre- bon, G. Mistura, E. Orlandini, G. Bissacco, A. Segato and J.M. Yeomans, Langmuir 25 5619 (2009).

160. Hydrodynamics of linked sphere model swimmers, G.P Alexander, C.M. Pooley and J.M. Yeomans, Journal of Physics, Condensed Matter 21 204108 (2009) (invited paper for special issue, Swimming at low Reynolds number).

159. Modelling the corrugation of the three-phase contact line perpendic- ular to a chemically striped substrate, F.J.M. Ruiz-Cabello, H. Kusumaat- maja, M.A. Rodriguez-Valverde, J.M. Yeomans and M.A. Cabrerizo-Vilchez, Langmuir 25 8357 (2009). 158. Effect of encapsulated polymers and nanoparticles on shear deforma- tion of droplets, O.B. Usta, D. Perchak, A. Clarke, J.M. Yeomans and A.C. Balazs, Soft Matter 5 850 (2009).

157. Contact line dynamics in binary lattice Boltzmann simulations, C.M. Pooley, H. Kusumaatmaja and J.M. Yeomans, Phys. Rev. E 78 056709 (2008).

156. Scattering of low Reynolds number swimmers, G.P Alexander, C.M. Pooley and J.M. Yeomans, Phys. Rev. E 78 045302 (2008).

155. Lattice Boltzmann study of convective drop motion driven by non- linear chemical kinetics, K. Furtado, C.M. Pooley and J.M. Yeomans, Phys. Rev. E 78 046308 (2008).

154. Designing synthetic, pumping cilia that switch the flow direction in microchannels, A. Alexeev, J.M. Yeomans and A.C. Balazs, Langmuir 24 12102 (2008).

153. Dumb-bell swimmers, G.P. Alexander and J.M. Yeomans, EPL 83 34006 (2008).

∗152.∗ Hydrodynamic interaction between two swimmers at low Reynolds number, C.M. Pooley, G.P. Alexander and J.M. Yeomans, Phys. Rev. Lett. 99 228103 (2008).

151. The collapse transition on superhydrophobic surfaces, H. Kusumaat- maja, M.L. Blow, A. Dupuis and J.M. Yeomans, EPL 81 36003 (2008).

150. Impalement of fakir drops, M. Reyssat, J.M. Yeomans and D. Quere, EPL 81 26006 (2008). Highlighted in Nature, 451 376 (2008).

149. Shearing active gels close to the isotropic-nematic transition, M.E. Cates, S.M. Fielding, D. Marenduzzo, E. Orlandini and J.M. Yeomans, Phys. Rev. Lett. 101 068102 (2008).

148. Anisotropic drop morphologies on corrugated surfaces, H. Kusumaat- maja, R.J. Vrancken, C.W.M. Bastiaansen and J.M. Yeomans, Langmuir 24 7299 (2008).

147. Capillary filling in patterned channels, H. Kusumaatmaja, C.M. Poo- ley, S. Girardo, D. Pisignano and J.M. Yeomans, Phys. Rev. E 77 067301 (2008).

146. Ejection dynamics of polymeric chains from viral capsids: Effect of solvent quality, I. Ali, D. Marenduzzo and J.M. Yeomans, Biophys. J. 94 4159 (2008). 145. Steady-state hydrodynamic instabilities of active liquid crystals: Hy- brid lattice Boltzmann simulations, D. Marenduzzo, E. Orlandini, M.E. Cates and J.M. Yeomans, Phys. Rev. E 76 031921 (2007).

144. Flexoelectric blue phases, G.P. Alexander and J.M. Yeomans, Phys. Rev. Lett. 99 067801 (2007).

143. Hydrodynamics and of active liquid crystals: A numerical investigation, D. Marenduzzo, E. Orlandini and J.M. Yeomans, Phys. Rev. Lett. 98 118102 (2007).

∗142.∗ Modelling contact angle hysteresis on chemically patterned and su- perhydrophobic surfaces, H. Kusumaatmaja and J.M. Yeomans, Langmuir 23 6019 (2007).

141. Modeling microscopic swimmers at low Reynolds number, D.J. Earl, C.M. Pooley, J.F. Ryder, I. Bredberg and J.M. Yeomans, J. Chem. Phys. 126 064703 (2007).

140. Controlling drop size and polydispersity using chemically patterned surfaces, H. Kusumaatmaja and J.M. Yeomans, Langmuir 23 956 (2007).

139. Stabilizing the blue phases, G.P. Alexander and J.M. Yeomans, Phys. Rev. E 74 061706 (2006).

138. Shear thinning in dilute polymer solutions, J.F. Ryder and J.M. Yeo- mans, J. Chem. Phys. 125 194906 (2006).

137. Lattice Boltzmann algorithm to simulate isotropic-nematic emulsions, N. Sulaiman, D. Marenduzzo and J.M. Yeomans, Phys. Rev. E 74 041708 (2006).

136. Lattice Boltzmann simulations of phase separation in chemically reac- tive binary fluids, K. Furtado and J.M. Yeomans, Phys. Rev. E 73 066124 (2006).

135. Dynamics of sliding drops on superhydrophobic surfaces, A. Dupuis and J.M. Yeomans, Europhys. Lett. 75 105 (2006).

134. Permeative flows in cholesterics: Shear and Poiseuille flows, D. Maren- duzzo, E. Orlandini and J.M. Yeomans, J. Chem. Phys. 124 204906 (2006).

∗133.∗ Polymer packaging and ejection in viral capsids: Shape matters, I. Ali, D. Marenduzzo and J.M. Yeomans, Phys. Rev. Lett. 96 208102 (2006).

132. Drop dynamics on chemically patterned surfaces, H. Kusumaatmaja, J. Leopoldes, A. Dupuis and J.M. Yeomans, Europhys. Lett. 73 740 (2006). 131. Elecric-field induced disclination migration in a Grandjean-Cano wedge, J.F. Stromer, D. Marenduzzo, C.V. Brown, J.M. Yeomans and E.P. Raynes, J. App. Phys. 99 064911 (2006).

130. Modeling the flow of fluid/particle mixtures in microchannels: En- capsulating nanoparticles within monodisperse droplets, R. Verberg, J.M. Yeomans and A.C. Balazs, J. Chem. Phys. 123 224706 (2005).

129. Polymer translocation: The effect of backflow, I. Ali and J.M. Yeo- mans, J. Chem. Phys. 123 234903 (2005).

128. Rheology of cholesteric blue phases, A Dupuis, D. Marenduzzo, E. Orlandini and J. M. Yeomans, Phys. Rev. Lett. 95 097801 (2005).

127. Control of droplet wetting using chemical patterning, A. Dupuis, J. Leopoldes, D.G. Bucknall and J.M. Yeomans, App. Phys. Lett. 87 024103 (2005).

126. Switching hydrodynamics in multi-domain, twisted nematic, liquid crystal devices, D. Marenduzzo, E. Orlandini and J. M. Yeomans, Euro- phys. Letts. 71 604 (2005).

∗125.∗ Modelling droplets on superhydrophobic substrates: Equilibrium states and transitions, A. Dupuis and J.M. Yeomans, Langmuir 21 2624 (2005).

124. Kinetics of the polymer collapse transition: The role of hydrodynamics, N. Kikuchi, J. Ryder, C.M. Pooley and J.M. Yeomans, Phys. Rev. E. 71 061804 (2005).

123. Pattern formation arising from the condensation of a homogeneous gas into a binary phase separating liquid, C.M. Pooley, A.C. Balazs and J.M. Yeomans, Phys Rev E 72 021505 (2005).

122. Modelling a tethered polymer in Poiseuille flow, M.A. Webster and J.M. Yeomans, J. Chem. Phys. 122 164903 (2005).

121. Numerical calculations of the phase diagram of cubic blue phases in cholesteric liquid crystals, A. Dupuis, D. Marenduzzo and J.M. Yeomans, Phys Rev E 71 011703 (2005).

120. A kinetic theory derivation of the transport coefficients of stochas- tic rotation dynamics, C. Pooley and J.M. Yeomans, J. Phys. Chem. B 109 6505 (2005).

119. Pattern formation in binary fluids confined between rough, chemi- cally heterogeneous surfaces, R. Verberg, C.M. Pooley, J.M. Yeomans and A.C. Balazs, Phys. Rev. Lett., 93 184501 (2004). 118. Dynamics of Polymer Packaging, I. Ali, D. Marenduzzo and J.M. Yeo- mans, J. Chem. Phys., 121 8635 (2004).

117. Stripe formation in differentially forced binary systems, C. Pooley and J.M. Yeomans, Phys. Rev. Lett., 93 118001 (2004).

116. Interplay between shear flow and elastic deformations in liquid crystals, D. Marenduzzo, E. Orlandini and J. M. Yeomans, J. Chem. Phys., 121 582 (2004).

∗115.∗ Permeative flows in cholesteric liquid crystals, D. Marenduzzo, E. Orlandini and J.M. Yeomans, Phys. Rev. Lett., 92 188301 (2004) .

114. Lattice Boltzmann algorithm for three dimensional liquid crystal hydro- dynamics, C. Denniston, D. Marenduzzo, E. Orlandini and J. M. Yeomans, Phil. Trans. Royal Soc. A 362 175 (2004).

∗113.∗ Lattice Boltzmann simulations of contact line motion: I. Liquid-gas systems, A.J. Briant, A.J. Wagner and J.M. Yeomans, Phys. Rev. E. 69 031602 (2004).

112. Lattice Boltzmann simulations of contact line motion: II. Binary fluids, A.J. Briant and J.M. Yeomans, Phys. Rev. E. 69 031603 (2004).

111. Acoustic enhancement of diffusion in a porous material, D. Haydock and J.M. Yeomans, Ultrasonics 41 531 (2003).

110. Rheology of distorted nematic liquid crystals, D. Marenduzzo, E. Or- landini and J.M. Yeomans, Europhys. Lett. 64 406 (2003).

∗109.∗ Jetting micron-scale droplets onto chemically heterogeneous surfaces, J. Leopoldes, A. Dupuis, D. Bucknall and J.M. Yeomans, Langmuir 19 9818 (2003).

108. Periodic droplet formation in chemically patterned microchannels, O. Kuksenok, D. Jasnow, J.M. Yeomans and A.C. Balazs, Phys. Rev. Lett., 91 108303 (2003).

∗107.∗ Transport coefficients of a mesoscopic fluid dynamics model, N. Kikuchi, C.M. Pooley, J. Ryder and J.M. Yeomans, J. Chem. Phys. 119 6388 (2003).

106. Anisotropy of domian growth in nematic liquid crystals, J. Jung, C. Denniston, E. Orlandini amd J.M. Yeomans, Liquid Crystals 30 1455 (2003).

105. Hydrodynamics of domain growth in nematic liquid crystals, G. Toth, C. Denniston and J.M. Yeomans, Phys. Rev. E67 051705 (2003).

104. Lattice Boltzmann simulations of attenuation-driven acoustic stream- ing, D. Haydock and J.M. Yeomans, J. Phys. A36 5683 (2003). ∗103.∗ Hydrodynamics of topological defects in nematic liquid crystals, G. Toth, C. Denniston and J.M. Yeomans, Phys. Rev. Lett. 88 105504 (2002).

102. Using patterned substrates to promote mixing in microchannels, O. Kuksenok, J.M. Yeomans and A.C. Balazs, Phys. Rev. E 65 031502 (2002).

101. Polymer collapse in the presence of hydrodynamic interactions, N. Kikuchi, A. Gent and J.M. Yeomans, European Phys. J. E. 9 63 (2002).

100. Phase separation of a binary fluid in the presence of immobile par- ticles: A lattice Boltzmann approach, D. Suppa, O. Kuksenok, A.C. Balazs and J.M. Yeomans, J. Chem. Phys. 116 6305 (2002).

99. Lattice Boltzmann simulations of contact line motion in a liquid-gas system, A. Briant, P. Papatzacos and J.M Yeomans, Philos. Trans. Royal Soc. A 360 485 (2002).

98. Domain motion in confined liquid crystals, C. Denniston, G. Toth and J.M. Yeomans, J. Stat. Phys. 107 187 (2002).

97. Flexoelectric surface switching of bistable nematic devices, C. Den- niston and J.M. Yeomans, Phys. Rev. Lett. 87 275505 (2001).

96. Creating localised mixing stations within microfluidic channels, O. Kuk- senok, J.M. Yeomans and A.C. Balazs, Langmuir 17 7186 (2001).

95. Lattice Boltzmann simulations of liquid crystal hydrodynamics, C. Den- niston, E. Orlandini and J.M. Yeomans, Phys. Rev E 6305 6702 (2001).

94. Phase ordering in nematic liquid crystals, C. Denniston, E. Orlandini and J.M. Yeomans, Phys. Rev. E 6402 1701 (2001).

93. Lattice Boltzmann simulations of acoustic streaming, D. Haydock and J.M. Yeomans, J. Phys. A 34 5201 (2001).

∗92.∗ Dynamics of short polymer chains in solution, A. Malevanets and J.M. Yeomans, Europhys. Lett. 52 231 (2000).

∗91.∗ Simulations of liquid crystal hydrodynamics in the isotropic and ne- matic phases, C. Denniston, E. Orlandini and J.M. Yeomans, Europhys. Lett. 52 481 (2000).

90. Lattice Boltzmann simulation of a binary fluid with different phase viscosities and its application to viscous fingering in two dimensions, K. Langaas and J.M. Yeomans, European Physics Journal B 15 133 (2000).

89. A lattice Boltzmann model of ternary fluid mixtures, A. Lamura, G. Gonnella and J.M. Yeomans, Europhys. Lett. 45 314 (1999). 88. Spinodal decomposition under shear in two-dimensional binary fluids, A. Wagner and J.M. Yeomans, Phys. Rev. E 59 4366 (1999).

87. Diffuse interface simulation of Marangoni convection, C. Denniston and J.M. Yeomans, Physical Chemistry, Chemical Physics 1 2157 (1999).

86. Phase separation in two-dimensional fluids: The role of noise, G. Gonnella, E. Orlandini and J.M. Yeomans, Phys. Rev. E 59 R4741 (1999).

85. Surface spin-flop and discommensuration transitions in antiferromag- nets, C. Micheletti, R.B. Griffiths and J.M. Yeomans, Phys. Rev. B 59 6239 (1999).

84. Mesoscale Modelling of Contact Line Dynamics, D. Grubert and J.M. Yeomans, Computer Physics Communications 122 236 (1999).

∗83.∗ Breakdown of scale-invariance in the coarsening of phase-separating binary fluids, A.J. Wagner and J.M. Yeomans, Phys. Rev. Lett. 80 1429 (1998).

82. Lattice Boltzmann simulations of lamellar and droplet phases, G. Gonnella, E. Orlandini and J.M. Yeomans, Phys. Rev. E 58 480 (1998).

∗81.∗ Spinodal decomposition to a lamellar phase: Effects of hydrodynamic flow, G. Gonnella, E. Orlandini and J.M. Yeomans, Phys. Rev. Lett. 78 1695 (1997).

80. Dissipative particle dynamics: The equilibrium for finite time steps, C.A. Marsh and J.M. Yeomans, Europhys. Lett. 37 511 (1997).

79. Surface spin-flop phases and bulk discommensurations in antiferromag- nets, C. Micheletti, R.B. Griffiths and J.M. Yeomans, J. Phys. A 30 233 (1997).

78. A complete devil’s staircase in the Falicov-Kimball model, C. Micheletti, A.B. Harris and J.M. Yeomans, J. Phys. A 30 L711 (1997).

77. Complete wetting in the three-dimensional transverse Ising model, A.B. Harris, C. Micheletti and J.M. Yeomans, J. Stat. Phys. 84 323 (1996).

∗76.∗ Lattice Boltzmann simulations of liquid–gas and binary fluid systems, M.R. Swift, E. Orlandini, W.R. Osborn and J.M. Yeomans, Phys. Rev. E 54 5041 (1996).

75. Wetting on lines and lattices of cylinders, W.R. Osborn and J.M. Yeo- mans, Phys. Rev. E 51 2053 (1995).

74. Quantum fluctuations in the ANNNI model, A.B. Harris, C. Micheletti and J.M. Yeomans, Phys. Rev. Lett. 74 3045 (1995). 73. Lifting of multiphase degeneracy by quantum fluctuations, A.B. Harris, C. Micheletti and J.M. Yeomans, Phys. Rev. B 52 6684 (1995).

72. Upsilon point in a spin model, C. Micheletti, F. Seno and J.M. Yeo- mans, Phys. Rev. B 52 4353 (1995).

71. Modulated structures stablised by spin softening: An expansion in in- verse spin anisotropy, F. Seno and J.M. Yeomans, Phys. Rev. B 52 9550 (1995).

∗70.∗ Lattice-Boltzmann simulation of non-ideal fluids, M.R. Swift, W.R. Osborn and J.M. Yeomans, Phys. Rev. Lett. 75 830 (1995).

∗69.∗ A lattice Boltzmann model of binary fluid mixtures, E. Orlandini, M.R. Swift and J.M. Yeomans, Europhys. Lett. 32 463 (1995).

∗68.∗ A lattice Boltzmann study of hydrodynamic spinodal decomposition, W.R. Osborn, E. Orlandini, M.R. Swift, J.M. Yeomans and J.R. Banavar, Phys. Rev. Lett. 75 4031 (1995).

67. Exact solution for the adsorption transition of row-convex polygons in the limit of zero area fugacity, C. Micheletti and J.M. Yeomans, Euro- phys. Lett. 25 1 (1994).

66. Ground state of a model with competing interactions and spin anisotropy, F. Seno, J.M. Yeomans, R. Harbord and D.Y.K. Ko, Phys. Rev. B 49 R6412 (1994).

65. Layering transitions in the Abraham model, J.M. Yeomans and C.L. O’Donnell, J. Phys. A 27 2939 (1994).

64. Spin softening in models with competing interactions: A new high anisotropy expansion to all orders, F. Seno and J.M. Yeomans, Phys. Rev. B 50 R10385 (1994).

63. The role of spin anisotropy in the unbinding of interfaces, C. Micheletti and J.M. Yeomans, Europhys. Lett. 28 465 (1994).

62. Low temperature behaviour of the 6-state clock model with compet- ing interactions, F. Seno, D.A. Rabson and J.M. Yeomans, J. Phys A 26 4887 (1993).

61. Adsorption transition of directed vesicles in two dimensions, C. Micheletti and J.M. Yeomans, J. Phys. A 26 5705 (1993).

60. Capillary condensation between spheres, H. Dobbs, G. Darbellay and J.M. Yeomans, Europhys. Lett. 18 439 (1992).

59. An interfacial potential approach to capillary condensation in a rect- angular groove, G. Darbellay and J.M. Yeomans, J. Phys. A 25 4275 (1992). 58. Capillary condensation and prewetting between spheres, H.T. Dobbs and J.M. Yeomans, J. Phys: Condens. Matter 4 10133 (1992).

57. Zero temperature properties of randomly self-interacting polymers, D. Foster, C. Vanderzande and J.M. Yeomans, J. Stat. Phys. 69 857 (1992).

56. The effect of attractive monomer-monomer interactions on the adsorp- tion of a polymer chain, A.R. Veal, J.M. Yeomans and G. Jug, J. Phys. A 24 827 (1991).

55. Universality of surface exponents of self-avoiding walks on a Manhat- tan lattice, S.L.A. de Querioz and J.M. Yeomans, J. Phys A 24 1867 (1991).

54. The adsorption and collapse of directed polymers, D. Foster and J.M. Yeomans, Physica A 17 443 (1991).

53. Critical behaviour at the ϑ point of self-avoiding walks on a Manhattan lattice, S.L.A. de Queiroz and J.M. Yeomans, J. Phys. A 24 L933 (1991).

52. Adsorption of directed polymers, A.R. Veal, J.M. Yeomans and G. Jug, J. Phys. A 23 L109 (1990).

51. Collapse transition in a simple polymer model: Exact results, P-M. Binder, A.L. Owczarek, A.R. Veal and J.M. Yeomans, J. Phys. A 23 L975 (1990).

50. Wetting on a cylindrical substrate off coexistence, G. Darbellay and J.M. Yeomans, J. Phys. A 23 5655 (1990).

49. A model for binary alloys: An Ising model with isotropic competing interactions, P.J. Upton and J.M. Yeomans, Phys. Rev. B 40 479 (1989).

∗48.∗ Wetting on spherical and cylindrical substrates: Global phase dia- grams, P.J. Upton, J.O. Indekeu and J.M. Yeomans, Phys. Rev. B 40 666 (1989).

47. Wetting between concentric spheres, M. Swift and J.M. Yeomans, J. Phys. A 22 L1069 (1989).

46. A series approach to wetting and layering transition: III The chiral clock model, K. Armitstead and J.M. Yeomans, J. Phys. A 21 173 (1988).

45. A series approach to wetting and layering transitions: II Solid-on-solid models, K. Armitstead and J.M. Yeomans, J. Phys. A 21 159 (1988).

44. An Ising model with isotropic competing interactions, P.J. Upton and J.M. Yeomans, Europhys. Lett. 5 575 (1988). 43. A microscopic model of annealed vacancies in long-period structures. H. R¨oderand J.M. Yeomans, Phase Transitions 11 (1988) 325.

42. Interface layering transitions in novel geometries, J.M. Yeomans, M.R. Swift and P. Duxbury, J. Phys. A 21 L1107 (1988).

41. Line phase transitions, J.O. Indekeu, P.J. Upton and J.M. Yeomans, Phys. Rev. Lett. 61 2221 (1988).

40. Layering transitions at an interface in the Blume-Capel model, P.J. Upton and J.M. Yeomans, J. Phys. A 20 2989 (1987).

39. Wetting velocity near the directed percolation threshold, M. Khan- tha and J.M. Yeomans, J. Phys. A 20 L325 (1987).

38. A series approach to wetting and layering transitions: I Potts mod- els, K. Armitstead and J.M. Yeomans, J. Phys. A 20 5635 (1987).

37. On the critical dynamics of one-dimensional Potts models, M. Droz, J. Kamphorst Leal da Silva, A. Malaspinas and J.M. Yeomans, J. Phys. A 19 2671 (1986).

36. Layering transitions at an interface, K. Armitstead, J.M. Yeomans and P.M. Duxbury, J. Phys. A 19 3165 (1986).

35. An equilibrium theory of polytypism, J.M. Yeomans and G.D. Price, Bulletin de Mineralogie 109 3 (1986).

34. A model for polysomatism, G.D. Price and J.M. Yeomans, Min. Mag. 50 149 (1986).

33. Low-temperature series analysis of multilayer adsorption at surfaces, P.M. Duxbury and J.M. Yeomans, J. Phys. A 18 L983 (1985).

32. On the Harris criterion for hierarchical lattices, B. Derrida, H. Dick- inson and J.M. Yeomans, J. Phys. A 18 L53 (1985).

31. Annealed defects in long period structures, H. Roder and J.M. Yeo- mans, J. Phys. C 18 L163 (1985).

30. The energetics of polytypic structures: A computer simulation of mag- nesium silicate spinelloids, G.D. Price, S.C. Parker and J.M. Yeomans, Acta Cryst. B 41 231 (1985).

29. Can long period phases remain stable in the presence of quenched im- purities? S. Fishman and J.M. Yeomans, J. Phys. C 18 857 (1985).

28. Finite-size scaling of two-dimensional ANNNI models, P.D. Beale, P.M. Duxbury and J.M. Yeomans, Phys. Rev. B 31 7166 (1985). 27. Bulk and interface scaling properties of the chiral clock model, J.M. Yeomans and B. Derrida, J. Phys. A 18 2343 (1985).

26. The axial Ising model with third neighbour interactions; a low temper- ature analysis of the multiphase region. M.N. Barreto and J.M. Yeomans, Physica 134A 84 (1985).

25. The instability of long period commensurate phases in the presence of quenched impurities, P. Bak, S. Coppersmith, Y. Shapir, S. Fishman and J.M. Yeomans, J. Phys. C 18 3911 (1985).

24. Axial Ising model with third neighbour interactions, W. Selke, M.N. Barreto and J.M. Yeomans, J. Phys. C 18 L393 (1985).

23. The energetics of polytypic structures: Further applications of the ANNNI model, R.J. Angel, G.D. Price and J.M. Yeomans, Acta Cryst. B 41 310 (1985).

22. A low temperature mean field theory of the p-state chiral clock model, J.M. Yeomans, J. Phys. C 17 3601 (1984).

21. Wavevector scaling and the phase diagram of the chiral clock model, P.M. Duxbury, J.M. Yeomans and P.D. Beale, J. Phys. C 17 L179 (1984).

∗20.∗ The application of the ANNNI model to polytypic behaviour, G.D. Price and J.M. Yeomans, Acta Cryst. B 40 448 (1984).

19. Analysis of the multiphase region in the three state chiral clock model, J.M. Yeomans and M.E. Fisher, Physica A 127 1 (1984).

18. Tricritical behaviour in a bond-dilute spin model, H. Dickinson and J.M. Yeomans, J. Phys. C 16 L345 (1983).

17. Interface behaviour in a three-state model, W. Selke and J.M. Yeo- mans, J. Phys. C 16 2789 (1983).

16. Phase diagram of the ANNNI model in a field using a low temper- ature series technique, J. Smith and J.M. Yeomans, J. Phys. C 16 5305 (1983).

15. A Monte Carlo study of the two-dimensional asymmetric clock model, W. Selke and J.M. Yeomans, Z. Physik B 46 311 (1982).

14. Low temperature analysis of the ANNNI model in a field, J. Smith and J.M. Yeomans, J. Phys. C 15 L1053 (1982).

13. Low temperature analysis of the p-state asymmetric clock model for general p, J.M. Yeomans, J. Phys. C 15 7305 (1982). 12. Three component model and tricritical points: A renormalization group study: II The three-phase monohedron, J.M. Yeomans and M.E. Fisher, Phys. Rev. B 24 2825 (1981).

11. Three component model and tricritical points: A renormalisation group study: I Two dimensions, M. Kaufman, R.B. Griffiths, J.M. Yeomans and M.E. Fisher, Phys. Rev. B 23 3448 (1981).

10. Multiphase behaviour and modulated ordering in solvable Ising mod- els, D.A. Huse, M.E. Fisher and J.M. Yeomans, Phys. Rev. B 23 180 (1981).

9. Exactly solvable Ising models exhibiting multiphase points, D.A. Huse, J.M. Yeomans and M.E. Fisher, J. Appl. Phys. 52 2028 (1981).

∗8.∗ Directed percolation: A phenomenological scaling approach, W. Kinzel and J.M. Yeomans, J. Phys. A 14 L163 (1981).

7. Many commensurate phases in the chiral Potts or asymmetric clock model, J.M. Yeomans and M.E. Fisher, J. Phys. C 14 L835 (1981).

6. Critical properties of the mixed Ising ferromagnet, J.M. Yeomans and R.B. Stinchcombe, J. Phys. C 13 85 (1980).

5. Critical behaviour of the dilute Ashkin-Teller-Potts model, J.M. Yeo- mans and R.B. Stinchcombe, J. Phys. C 13 L239 (1980).

4. Critical properties of site- and bond-diluted Ising ferromagnets, J.M. Yeomans and R.B. Stinchcombe, J. Phys. C 12 347 (1979).

3. A renormalisation group approach for the mixed Ising model, J.M. Yeo- mans and R.B. Stinchcombe, J. Phys. C 12 L169 (1979).

2. Critical properties of the site-diluted Ising ferromagnet, J.M. Yeomans and R.B. Stinchcombe, J. Phys. C 11 L525 (1978).

1. A renormalisation group approach for site-diluted resistor networks, J.M. Yeomans and R.B. Stinchcombe, J. Phys. C 11 4095 (1978).

REVIEW ARTICLES

9. Hydrodynamic interactions at low Reynolds number, G.P. Alexander and J.M. Yeomans, Experimental Mechanics, in press (invited paper for special issue, Locomotion).

8. Numerical results for the blue phases, G.P. Alexander and J.M. Yeo- mans, Liquid Crystals, in press (invited paper for special issue honouring P.G. de Gennes). 7. Using the lattice Boltzmann algorithm to explore phase ordering in flu- ids, G. Gonnella and J.M. Yeomans in Kinetics of Phase Transitions, ed. S. Puri, CRC press (2008).

6. Modelling drop dynamics on patterned surfaces, H. Kusumaatmaja and J.M. Yeomans, Bulletin of the Polish Academy of Sciences 55 203 (2007).

5. Mesoscale simulations: Lattice Boltzmann and particle algorithms, J.M. Yeomans, Physica A 369 159 (2006).

4. Phase ordering in fluids, J.M. Yeomans, Ann. Rev. Comp. Phys. VII, ed. D. Stauffer, 61 (1999).

3. The binding of one-dimensional strings, J.M. Yeomans, in Non-equilibrium statistical mechanics in one dimension, ed. V. Privman, C.U.P., (1997).

2. Splitting the multiphase point, J.M. Yeomans, Phase Transitions 57 49 (1996).

1. The theory and application of axial Ising models, J.M. Yeomans in Solid State Physics, eds. H. Ehrenreich, F. Seitz and D. Turnbull, Academic Press N.Y., 41 151 (1988).

CONFERENCE PROCEEDINGS

38. Simulating polymers in sheared drops, O.B. Usta, J.M. Yeomans and A.C. Balazs, Bussei Kenkyu, in press.

37. Modelling capillary filling dynamics using lattice Boltzmann simula- tions, C.M. Pooley, H. Kusumaatmaja and J.M. Yeomans, European Physics Journal - Special Topics 171 63 (2009).

36. Hydrodynamics of active liquid crystals: A hybrid lattice Boltzmann approach, E. Orlandini, M.E. Cates, D. Marenduzzo, L. Tubiana and J.M. Yeomans, Molecular Crystals and Liquid Crystals 494 293 (2008).

35. Lattice Boltzmann simulation techniques for simulating microscopic swimmers, C.M. Pooley and J.M. Yeomans, Computer Physics Communi- cations 179 159 (2008).

34. Lattice Boltzmann simulations of spontaneous flow in active liquid crys- tals: The role of boundary conditions, D. Marenduzzo, E. Orlandini, M.E. Cates and J.M. Yeomans, J. Non-Newt. Fluid Mech, 149 56 (2008).

33. Viscoelastic flows of cholesteric liquid crystals, E. Orlandini, D. Maren- duzzo and J.M. Yeomans, Molecular Crystals and Liquid Crystals 465 1 (2007). 32. Lattice Boltzmann simulations of drop dynamics, H. Kusumaatmaja, A. Dupuis and J.M. Yeomans, Mathematics and Computers in Simulation 72 160 (2006).

31. Droplets on patterned substrates: Water off a beetle’s back, A. Dupuis and J.M. Yeomans, International J. Numerical Methods in Fluids, 50 255 (2006).

30. Lattice Boltzmann simulations of cholesteric liquid crystals: Perme- ative flows, doubly twisted textures and cubic blue phases, D. Marenduzzo, A Dupuis, J. M. Yeomans and E. Orlandini, Molecular Crystals and Liquid Crystals, 435 845 (2005).

29. Shear dynamics in cholesterics, E Orlandini, D. Marenduzzo and J.M. Yeomans, Comp. Phys. Comm. 169 122 (2005).

28. Droplet dynamics on patterned substrates, A. Dupuis and J.M. Yeo- mans, Proc. Statphys 22, Pramana 64 1019 (2005).

27. Lattice Boltzmann modelling of droplets on chemically heterogeneous surfaces, A. Dupuis and J.M. Yeomans, Future Generation Computing Sys- tems 20 993 (2004).

26. Droplet spreading on heterogeneous surfaces using a three-dimensional lattice Boltzmann model, A. Dupuis, A.J. Briant, C.M. Pooley and J.M. Yeomans, Lect. Notes in Comput. Sc. 2657 1024 (2003).

25. Modelling nematohydrodynamics in liquid crystal devices, G. Toth, C. Denniston and J.M. Yeomans, Computer Physics Communications 147 7 (2002).

24. Simulations of liquid crystals in Poiseuille flow, C. Denniston, E. Or- landini and J.M. Yeomans, J. Theo. and Comp. Polymer Sci. 11 389 (2001).

23. A particle-based algorithm for the hydrodynamics of binary fluid mix- tures, A. Malevanets and J.M. Yeomans, Computer Physics Communica- tions 129 282 (2000).

22. Modelling viscous drag in binary fluid mixtures, A. Malevanets and J.M. Yeomans, Computer Physics Communications 127 105 (2000).

21. Lattice Boltzmann simulations of complex fluids: Viscoelastic effects under oscillatory shear, A. Malevanets and J.M. Yeomans, Faraday Discuss. 112 237 (1999).

20. Spinodal decomposition in binary fluids, A. Wagner and J.M. Yeomans, Proc. of the Fourth Royal-Society-Unilever Indo-UK Forum in Materials Science and Engineering, eds. M. Lal, R.A. Mashelkar, B.D. Kulkarni and V.M. Naik, 46 (1999). 19. Spinodal decomposition in two-dimensional binary fluids, A. Wagner and J.M. Yeomans, Int. J. Mod. Phys. C 9 1373 (1998).

18. Dynamics of self-assembly in complex fluids, G. Gonnella, E. Orlan- dini and J.M. Yeomans, Nuovo Cimento D 20 2393 (1998).

17. Conference spotlights advanced fluid-simulation techniques, J.M. Yeo- mans and B. Boghosian, Computers in physics 12 522 (1998).

16. Modelling the dynamics of amphiphilic fluids, A. Lamura, G. Gonnella and J.M. Yeomans, Int. J. Mod. Phys. C 9 1469 (1998).

15. Lattice Boltzmann study of spinodal decomposition in structured flu- ids, E. Orlandini, G. Gonnella and J.M. Yeomans, Physica A 240 277 (1997).

14. Lattice Boltzmann simulations of complex fluids, G. Gonnella, E. Or- landini and J.M. Yeomans, Int. J. of Modern Phys. C 8 783 (1997).

13. Effect of shear on droplets in a binary mixture, A.J. Wagner and J.M. Yeomans, Int. J. of Modern Phys. C 8 773 (1997).

12. Some recent advances in the theory of critical phenomena, J.M. Yeo- mans, Proceeding of the International Conference on Solid to Solid Phase Transformations in Inorganic Materials, eds. W.C. Johnson, J.M. Howe, D.E. Laughlin and W.A. Soffa, 9 (1995).

11. Crossover between the discrete and continuous spin limits in the ground state of a model with competing interactions and spin anisotropy, F. Seno, J.M. Yeomans, R. Harbord and D.Y.K. Ko, Turkish J. Phys. 18 361 (1994).

10. Capillary condensation within an array of cylinders, H.T. Dobbs and J.M. Yeomans, Molecular Physics 80 877 (1993).

9. Wetting between curved substrates, M. Swift and J.M. Yeomans, in Dis- order in Condensed Matter Physics, eds. J.A. Blackman and J. Taguena, 397 (1991).

8. What can spin models tell us about the behaviour of minerals? J.M. Yeo- mans, NATO ASI on Physical Properties and Thermodynamic Behaviour of Minerals, Cambridge, England, ed. E. Salje, 119 (1988).

7. The origins of polytypes and related modulated structures, G.D. Price and J.M. Yeomans, Proc. of the Los Alamos Workshop on Microstructures and Competing Interactions, Springer Lecture Notes in Physics, eds. R. le Sar and A. Bishop, 60 (1988).

6. Application of axial Ising models to the description of modulated or- der, J.M. Yeomans, NATO ASI on Incommensurate Structures, Boulder, eds. N. Clark and J. Scott, Series B 166 45 (1987). 5. ANNNI and clock models, J.M. Yeomans, Invited Contribution, EPS Solid State Conference, Physica 127B 187 (1984).

4. The role of domain walls in the critical behaviour of the three-dimensional, p-state asymmetric clock model, J.M. Yeomans, NATO ASI on Multicritical Phenomena, eds. R. Pynn and A. Skjeltorp, Plenum, 293 (1984).

3. Low temperature analysis of the ANNNI model in a field, J. Smith and J.M. Yeomans, NATO ASI on Multicritical Phenomena, eds. R. Pynn and A. Skjeltorp, Plenum, 271 (1984).

2. A new model of polytypism, J. Smith, J.M. Yeomans and V. Heine, NATO ASI on Modulated Structure Materials, ed. T. Tsakalos, 95 (1984).

1. Critical properties of the mixed Ising ferromagnet, J.M. Yeomans and R.B. Stinchcombe, NATO Advanced Study Institute Series, 50 ed. T. Riste, 189 (1980).

TECHNICAL REPORT

1. Mesoscale modelling of complex fluids: Technical report for the Japan Institute of Applied Energy, J.M. Yeomans (2000).

WIDER READERSHIP

5. Simulating complex fluids, J.M. Yeomans, Physicalia Magazine 19 305 (1997).

4. Long-period phases in metals, magnets and minerals, J.M. Yeomans, Condensed Matter News 1 10 (1992).

3. Polytypism in crystals, J.M. Yeomans, Encyclopaedia of Materials Sci- ence and Engineering, First Annual Supplement, ed. R.W. Cahn, Pergamon, 427 (1988).

2. When all length scales are important: The physics of critical phenomena, J.M. Yeomans, in Solid State Science, Past, Present and Predicted, eds. D. Weaire and C. Windsor, Adam Hilger, (1987).

1. When all length scales are important: The physics of critical phenomena, J.M. Yeomans, Phys. Bull. 36 383 (1985). Dec 2008 100th Statistical Mechanics Conference, Rutgers, USA Sept 2007 Conference on Computational Physics, Brussels Sept 2006 ESF Research Conference, Complex Fluid Interfaces, Austria Apr 2006 Multiscale Modeling: Electrons, Molecules and (Bio)materials, Royal Netherlands Academy of Arts and Sciences, Amsterdam Sept 2005 Fundamental Problems in XI, Belgium July 2004 Statphys 22, Bangalore, India Sept 2001 Conference on Computational Physics, Germany Aug 2001 Gordon Conference, Liquids, New England Mar 1999 Division of Computational Physics, Centennial APS Meeting, Atlanta Aug 1996 Gordon Conference, Modelling Flow in Permeable Media, New England

Other recent invited lectures at International Meetings (since 2004): Apr 2010 Faraday Discussion, Wetting Dynamics, Virginia. May 2009 Driven Microfluidic Systems, Dublin. May 2009 Sommerfeld theory colloquium, University of Munich Apr 2009 DNA Topology, San Francisco. Mar 2009 MESOSOFT, Germany. Oct 2008 Common Trends in Mesoscale Methods, Lausanne. Aug 2008 Knots and Soft Matter Physics, Kyoto June 2008 ESF Exploratory Workshop, Physics of Micro and Nano-flows, Leiden. Mar 2008 School, Introduction to Lattice Boltzmann Methods for Complex Flow Simulations, Rome. Mar 2008 Knots and Macromolecules, Venice. Feb 2008 Symposium BuildMoNa, Leipzig. Sept 2007 ESF Exploratory Workshop, Microfluidic Experiments and Numerics, Rome. Aug 2007 DSFD 2007: Micro, Nano and Multiphysics for Emerging Technologies, Banff, Canada. May 2007 School on Friction and Wetting, SISSA, Trieste. Nov 2006 Soft Matter Days, Julich, Germany. Oct 2006 Multiscale Modeling in Soft and Biological Matter, CECAM, Lyon. July 2006 Modelling Elastic Manifolds, from Soft Condensed Matter to Biomolecules, Trieste. July 2006 International Symposium on Trends in Applications of Mathematics to Mechanics, Vienna. June 2006 Nonequilibrium Nanoscale Fluctuations: Single Molecules, Chemical Reactions and Microfluidics, Goldrain, Italy. Apr 2006 Mesoscale Simulation Techniques, Julich, Germany. Mar 2006 Heraeus Seminar, Hydrodynamics of Soft Matter, Bad Honnef, Germany. Feb 2006 Wageningen Lattice Boltzmann Workshop, Netherlands. Dec 2005 Novel Mesoscopic Simulation Methods for Complex Fluids, CECAM, Lyon. Sept 2005 SoftComp, Amsterdam Aug 2005 Discrete Simulation of , Kyoto. July 2004 Pattern Formation in Non-Equilibrium Systems, Kolkata, India. Apr 2004 Particle-Based Mesoscale Simulation Techniques, Minneapolis, USA.

Recent major grants (as PI or co-PI): 2008-10 Behaviour of Fluids at the Microscale, ONR, USA $321K 2007-10 Oxford Condensed Matter Theory Programme Grant, EPSRC £1,848K 2006-09 INFLUS: EU STREP, Interfacial Phenomena in Materials E103K 2005-08 Modelling lubrication at mesoscopic length scales, ONR, USA $240K 2003-04 Developing mesoscale models for tribochemistry, Pittsburgh/ONR £66K 2003-07 Oxford Condensed Matter Theory Programme Grant, EPSRC £1,670K 2002-05 IMAGE-IN: EU framework 5 programme, ink--media interactions E1,023K 1998-02 Oxford Condensed Matter Theory Rolling Grant, EPSRC £1,038K

Research Councils etc. service (EPSRC, European Research Council, EPS): 2009- Board member, EPS Division of Physics in the Life Sciences 2008- ERC Starting Grants Evaluation Panel 2008 Expert Evaluator Panel, FP7 Programme, Interface Modelling 2007- External advisor, NTU Platform Grant (P.I. Prof. G. McHale) 2001 Panel to review Fast Stream Grants 1999 Panel to review the Newton Institute 1999 Chair, Physics Prioritisation Panel 1997,04,07 Member, Physics Prioritisation Panels

Editorial appointments: Advisory Editor, Europhysics Letters (2006 – 09); Co-Editor, Europhysics Letters (2003 – 06); Editorial Board, Journal of Statistical Physics (2001 – ); Editorial Board, Physica A (1999 – 01); Editorial Board, Journal of Physics A: Math. Gen. (1995 – 99); Editor, Cambridge Lecture Notes in Physics (1993 – 2003).

International conference organising: Organising Committee: Playing Colloidal Mikado, Oxford (2009); Mesoscale Modelling for Complex Fluids and Flows, Oxford (2007); Mesoscopic Simulation of Liquids, CECAM, Lyons (1999); DSFD, Santa Fe (2000); Tokyo (1999, Chair); Oxford (1998). International Advisory Committee: STATPHYS (2007--); Conference on Computational Physics (2007--); Conference on Computational Modelling and Simulation of Materials (2004).

Outreach: 2009 Lead investigator, ‘Nature’s Raincoats’, RS Summer Science Exhibition. 2008,09 Judging Panel: IoP Women in Physics Group Very Early Career Award. 2007,09 SET for Britain, Judge. 2006 Leader, UK delegation, 2nd IUPAP International Conference, Women in Physics. 2006- Advisory Committee, Women in Physics Group, Institute of Physics.

Graduate supervision: 26 graduate students who have completed their D. Phil.; 5 current students.