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@ARTICLE{Winkler:38483,
      author       = {Winkler, R. G. and Mussawisade, K. and Ripoll, M. and
                      Gompper, G.},
      title        = {{R}od-like {C}olloids and {P}olymers in {S}hear {F}low: {A}
                      {M}ulti-{P}article-{C}ollision {D}ynamics {S}tudy},
      journal      = {Journal of physics / Condensed matter},
      volume       = {16},
      issn         = {0953-8984},
      address      = {Bristol},
      publisher    = {IOP Publ.},
      reportid     = {PreJuSER-38483},
      pages        = {s3941 - s3954},
      year         = {2004},
      note         = {Record converted from VDB: 12.11.2012},
      abstract     = {The effect of the hydrodynamic interaction on the dynamics
                      of flexible and rod-like polymers in solution is
                      investigated. The solvent is simulated by the
                      multi-particle-collision dynamics (MPCD) algorithm, a
                      mesoscale simulation technique. The dynamics of the solvent
                      is studied and the self-diffusion coefficient is calculated
                      as a function of the mean free path of a particle. At small
                      mean free paths, the hydrodynamic interaction strongly
                      influences the dynamics of the fluid particles. This solvent
                      model is then coupled to a molecular dynamics simulation
                      algorithm. We obtain excellent agreement between Our
                      simulation results for a flexible polymer and the
                      predictions of Zimm theory. The study of the translational
                      diffusion coefficient of rod-like polymers confirms the
                      predicted chain-length dependence. In addition, we study the
                      influence of shear on the structural properties of rod-like
                      polymers. For shear rates exceeding the rotational
                      relaxation time, the rod-like molecule aligns with the shear
                      flow, leading to an orientational symmetry breaking
                      transverse to the flow direction. The comparison of the
                      obtained shear rate dependencies with theoretical
                      predictions exhibits significant deviations. The properties
                      of the orientational tensor and the rotational velocity are
                      discussed in detail as a function of shear rate.},
      keywords     = {J (WoSType)},
      cin          = {IFF-TH-II},
      ddc          = {530},
      cid          = {I:(DE-Juel1)VDB31},
      pnm          = {Kondensierte Materie},
      pid          = {G:(DE-Juel1)FUEK242},
      shelfmark    = {Physics, Condensed Matter},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:000224550700013},
      doi          = {10.1088/0953-8984/16/38/012},
      url          = {https://juser.fz-juelich.de/record/38483},
}