Hartmut Löwen

Publications (3)5.09 Total impact

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  Available from: Thomas Palberg

  Article: Colloidal and molecular electro-optics.

  Thomas Palberg, Hartmut Löwen
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  ABSTRACT: The Kerr effect, also known as the quadratic electro-optic effect, was discovered more than a hundred years ago by John Kerr, a Scottish physicist [1]. It describes the change in the refractive index of a material in response to an applied electric field. Around 1950 its application swayed from simple to complex fluids. A strong contribution was made through a number of seminal papers by the French polymer scientist H Benoit [2-4]. These and others initiated wide interest from researchers working on macromolecular solutions or colloidal dispersions. Experimental activities were further boosted by the advent of the laser and theoretical approaches strongly drew from growing computer power. Use of AC or pulsed field techniques, as well as of inhomogeneous fields, including laser tweezers, studies of electrophoretic, dielectrophoretic, electro-osmotic and other types of motion by advanced optical methods and combinations with other external fields have had the greatest impact on our understanding of the electric field induced optical properties of soft matter systems. Today the field has matured and its techniques are broadly employed as versatile tools with applications ranging from biological systems to electronic ink. Fundamental interest still continues but more and more side branches have evolved fruitfully. This collection of papers was, therefore, brought together to take a fresh look at this traditional field. Further, we are to celebrate 35 years of a successful conference series, ELOPTO, with the last one held at Waldthausen Castle hosted by the Johannes Gutenberg University, Mainz(Note)(1) and the DFG Collaborative Research Centre TR6 'Physics of colloidal dispersions in external fields'(Note)(2). In this issue we have collected the articles of some of the leading experts in the area, well garnished with novel approaches and clever ideas by younger colleagues. With our selection we hope to cover a representative spectrum of the ongoing research, catch the most exciting trends and earn the interest of a good fraction of contemporary soft matter scientists. Note1 http://www.elopto2010.fb08.uni-mainz.de Note2 http://www.sfb-tr6.de References [1] Weinberger P 2008 John Kerr and his effects found in 1877 and 1878 Phil. Mag. Lett. 88 897-907 [2] Benoit H 1948 Calcul de l'écart quadratique moyen entre les extrémités de diverses chaînes moléculaires de type usuel J. Polym. Sci. 3 376-87 [3] Benoit H 1949 Sur un dispositif de mesure de l'effet Kerr par impulsions electriques isoles Comptes Rendus 228 1716-8 [4] Benoit H 1951 Contribution a l'etude de l'effet Kerr presente par les solutions diluees de macromolecules rigide Ann. Phys. 6 561-609 Colloidal and molecular electro-optics contents Electric dichroism transients of aqueous solutions of DNA J A Bertolotto, G M Corral, E M Farias de La Torre and G B Roston The role of effective charges in the electrophoresis of highly charged colloids Apratim Chatterji and Jürgen Horbach Nonlinear response of the electric birefringence of polyelectrolyte solutions J L Déjardin and J M Martinez Kerr constant of multi-subunit particles and semiflexible, wormlike chains J García de la Torre, F G Díaz Baños and H E Pérez Sánchez Self-assembling electroactive hydrogels for flexible display technology Scott L Jones, Kok Hou Wong, Pall Thordarson and François Ladouceur Electrooptical effects in colloid systems subjected to short pulses of strong electric field S A Klemeshev, M P Petrov, A A Trusov and A V Voitylov The effect of ionic strength on electrical properties of polyelectrolyte multilayers on colloidal particles V Milkova and Ts Radeva Charge transport and current in non-polar liquids Kristiaan Neyts, Filip Beunis, Filip Strubbe, Matthias Marescaux, Bart Verboven, Masoumeh Karvar and Alwin Verschueren Ionic concentration- and pH-dependent electrophoretic mobility as studied by single colloid electrophoresis I Semenov, P Papadopoulos, G Stober and F Kremer Effect of magnesium ions and temperature on the sequence-dependent curvature of DNA restriction fragments Nancy C Stellwagen and Yongjun Lu A fluorescence correlation spectroscopy study of macromolecular tracer diffusion in polymer solutions Ute Zettl, Matthias Ballauff and Ludger Harnau Polymer concentration dependence of kilohertz electric polarizability of alumina colloid particles with adsorbed carboxymethyl cellulose Alexandar M Zhivkov and Rosen P Hristov.
  Journal of Physics Condensed Matter 12/2010; 22(49):490301. · 2.55 Impact Factor
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  Available from: Thomas Palberg

  Article: Non-equilibrium melting of colloidal crystals in confinement

  Enrique Villanova-Vidal, Thomas Palberg, Hans Joachim Schöpe, Hartmut Löwen
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  ABSTRACT: We report on a novel and flexible experiment to investigate the non-equilibrium melting behaviour of model crystals made from charged colloidal spheres. In a slit geometry polycrystalline material formed in a low salt region is driven by hydrostatic pressure up an evolving gradient in salt concentration and melts at large salt concentration. Depending on particle and initial salt concentration, driving velocity and the local salt concentration complex morphologic evolution is observed. Crystal-melt interface positions and the melting velocity are obtained quantitatively from time resolved Bragg- and polarization microscopic measurements. A simple theoretical model predicts the interface to first advance, then for balanced drift and melting velocities to become stationary at a salt concentration larger than the equilibrium melting concentration. It also describes the relaxation of the interface to its equilibrium position in a stationary gradient after stopping the drive in different manners. We further discuss the influence of the gradient strength on the resulting interface morphology and a shear induced morphologic transition from polycrystalline to oriented single crystalline material before melting.
  12/2008;
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  Available from: Thomas Palberg

  Article: A comparative study on the phase behaviour of highly charged colloidal spheres in a confining wedge geometry

  Ana Barreira Fontecha, Hans Joachim Schöpe, Hans König, Thomas Palberg, René Messina, Hartmut Löwen
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  ABSTRACT: We studied the structures formed in aqueous dispersions of charged colloidal spheres under a constant low salt concentration of c = 6 × 10−6 mol l−1. Particles of diameter 2a = 1000 nm were confined to a low angle wedge geometry with plate separation 0<S<50 µm and observed with video microscopy. Irrespective of the initial particle density n we reproducibly observe the particles to migrate to the narrow wedge side on the timescale of a few days. Thereby an interface between a crystalline structure and a near particle free region is formed, which propagates slowly until the dilute region is exhausted of particles. While the origin of this separation is still unclear, the final extension of the crystalline region is stable on the timescale of months. Within the crystal phase we observe a characteristic sequence of structures with increasing plate separation similar to that seen in previous experiments on hard sphere-like systems but here with non-touching particles. Moreover, we find that mechanical equilibrium is a necessary prerequisite for observing the full richness of different phases. A detailed comparison to recent theoretical calculations for bilayers was performed and semi-quantitative agreement with the predictions observed.
  Journal of Physics Condensed Matter 07/2005; 17(31):S2779. · 2.55 Impact Factor