Research outputs: Dr. Oliver Henrich

  1. A Single Nucleotide Resolution Model for Large-Scale Simulations of Double Stranded DNA DOI
    Y. A. G. Fosado, D. Michieletto, J. Allan, C. Brackley, O. Henrich and D. Marenduzzo, Soft Matter, 12, 47 , p. 9458-9470 (2016)
  2. Scaling soft matter physics to thousands of graphics processing units in parallel DOI
    A. Gray, A. Hart, O. Henrich and K. Stratford, International Journal of High Performance Computing Applications, 29, 3 , p. 274-283 (2015)
  3. Self-assembly of colloid-cholesteric composites provides a possible route to switchable optical materials DOI
    Kevin Stratford, Michael Cates, Oliver Henrich, Juho Lintuvuori and Davide Marenduzzo, Nature Communications, 5 (2014)
  4. Switching hydrodynamics in liquid crystal devices: a simulation perspective DOI
    Oliver Henrich, Davide Marenduzzo and Juho Lintuvuori, Soft Matter, 10, 26 , p. 4580-4592 (2014)
  5. Rheology of cubic blue phases DOI
    Oliver Henrich, Kevin Stratford, Peter V. Coveney, Michael Cates and Davide Marenduzzo, Soft Matter, 9, p. 10243 (2013)
  6. Confined cubic blue phases under shear DOI
    Oliver Henrich, K. Stratford, D. Marenduzzo, P. V. Coveney and M. E. Cates, Journal of Physics: Condensed Matter, 24, 28 (2012)
  7. Rheology of lamellar liquid crystals in two and three dimensions: a simulation study DOI
    Oliver Henrich, K. Stratford, D. Marenduzzo, P. V. Coveney and M. E. Cates, Soft Matter, 8, 14 , p. 3817-3831 (2012)
  8. Structure of Blue Phase III of Cholesteric Liquid Crystals DOI
    Oliver Henrich, K. Stratford, Michael Cates and D. Marenduzzo, Physical Review Letters, 106, 10 (2011)
  9. Ordering dynamics of blue phases entails kinetic stabilization of amorphous networks DOI
    Oliver Henrich, Kevin Stratford, Davide Marenduzzo and Michael E. Cates, Proceedings of the National Academy of Sciences, 107, 30 , p. 13212-13215 (2010)
  10. Domain growth in cholesteric blue phases: Hybrid lattice Boltzmann simulations DOI
    Oliver Henrich, D. Marenduzzo, K. Stratford and M. E. Cates, Computers & mathematics with applications, 59, 7 , p. 2360-2369 (2010)
  11. Thermodynamics of blue phases in electric fields DOI
    Oliver Henrich, D. Marenduzzo, K. Stratford and M. E. Cates, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 81, 3 (2010)
  12. Hard discs under steady shear: comparison of Brownian dynamics simulations and mode coupling theory DOI
    Oliver Henrich, Fabian Weysser, Michael E. Cates and Matthias Fuchs, Philosophical Transactions A: Mathematical, Physical and Engineering Sciences, 367, 1909 , p. 5033-5050 (2009)
  13. An empirical constitutive law for concentrated colloidal suspensions in the approach of the glass transition DOI
    H. Henning Winter, Miriam Siebenbuerger, David Hajnal, Oliver Henrich, Matthias Fuchs and Matthias Ballauff, Rheologica acta, 48, 7 , p. 747-753 (2009)
  14. Lattice Boltzmann simulations of liquid crystalline fluids: active gels and blue phases DOI
    M. E. Cates, Oliver Henrich, D. Marenduzzo and K. Stratford, Soft Matter, 5, 20 , p. 3791-3800 (2009)
  15. Shear stresses of colloidal dispersions at the glass transition in equilibrium and in flow DOI
    J. J. Crassous, M. Siebenbuerger, M. Ballauff, M. Drechsler, D. Hajnal, O. Henrich and M. Fuchs, The Journal of Chemical Physics, 128, 20 (2008)
  16. Theory of thermodynamic stresses in colloidal dispersions at the glass transition DOI
    D. Hajnal, O. Henrich, J. J. Crassous, M. Siebenbuerger, M. Drechsler, M. Ballauff and M. Fuchs, p. 674-676 (2008)
  17. Bond formation and slow heterogeneous dynamics in adhesive spheres with long-ranged repulsion: Quantitative test of mode coupling theory DOI
    O. Henrich, A. M. Puertas, M. Sperl, J. Baschnagel and M. Fuchs, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 76, 3 (2007)
  18. Nonequilibrium structure of concentrated colloidal fluids under steady shear: leading-order response DOI
    Oliver Henrich, Oskar Pfeifroth and Matthias Fuchs, Journal of Physics: Condensed Matter, 19, 20 (2007)
  19. Thermosensitive core-shell particles as model systems for studying the flow behavior of concentrated colloidal dispersions DOI
    J. J. Crassous, M. Siebenbuerger, M. Ballauff, M. Drechsler, O. Henrich and M. Fuchs, The Journal of Chemical Physics, 125, 20 (2006)
  20. Yield stress discontinuity in a simple glass DOI
    F. Varnik and O. Henrich, Physical Review B: Condensed Matter and Materials Physics, 73, 17 (2006)
  21. Dynamic yield stresses of glasses: asymptotic formulae DOI
    O Henrich, F Varnik and M Fuchs, Journal of Physics: Condensed Matter, 17, 45 (2005)