International Workshop on Dynamics in Viscous Liquids

Rome, March 30 - April 2, 2011

List of Posters

Poster Session A

A1

C. A. Angell, Arizona State University
Decoupling of viscosity from diffusive mobility in a molecular liquid, caused by isothermal introduction of 2nm structural inhomogeneities

A2

A. Furukawa, University of Tokyo
Mesoscopic natures of the anomalous viscous transport and viscoelasticity in supercooled liquids

A3

H. E. Castillo, Ohio University
Dynamical heterogeneity in structural glasses and correlated fluctuations of the time variables

A4

L. Yelash, Johannes-Gutenberg-University Mainz
Atomistic molecular dynamics simulations of polybutadiene at graphite: Slowing down in confined melt vs. bulk

A5

J. S. Hansen, Roskilde University
Viscous properties of water

A6

H. Morhenn, FRM II Munich
Short time dynamics of a medium length polyethylene melt

A7

M. Bernabei, Donostia International Physics Center
From caging to Rouse dynamics in polymer melts with intramolecular barriers: a critical test of the Mode Coupling Theory.

A8

M. Hofmann, University Bayreuth
Glassy and polymer dynamics in confining geometry as revealed by NMR

A9

M. Z. Slimani, Donostia International Physics Center
Heterogeneities of segmental dynamics in lamellar phases of diblock copolymers

A10

J. K Basu, Indian Institute of Science
Unusual dynamics of polymer grafted nanoparticles

A11

A. Grzybowski, Silesian University
Specific volume and activation volume scalings in viscous systems

A12

K. Kaminski, University of Silesia
Identification of the molecular origin of secondary relaxation process which is commonly observed in the whole family of the saccharides.

A13

M. Romanini, Universitat Politècnica de Catalunya
Removal of hydrogen-bond-induced clusters in m-fluoroaniline by mixing with aromatic compounds: emergence of genuine Johari-Goldstein relaxation

A14

P. Wlodarczyk, University of Silesia
Identification the origins of non-JG secondary modes. Conformational interconversion as JG secondary mode.

A15

T. Scopigno,
Visualizing Coherent Acoustic Phonons in Disordered Materials

A16

B. Jakobsen, Roskilde University
Temperature-independent decoupling between the characteristic time scales of five independent linear response functions

A17

D. Gundermann, Roskilde University
Experimental connection between density scaling and the Prigogine-Defay ratio of a glass-forming liquid

A18

K. Niss, Roskilde University
Dynamic thermal expansivity of a molecular liquid near the glass transition

A19

L. Bøhling, Roskilde University
Investigation of infinite frequency shear and bulk moduli on strongly correlating liquids

A20

N. P. Bailey, Roskilde University
Perturbation theory approach to determining the effective inverse power-law exponent for strongly correlating liquids.

A21

T. S. Ingebrigtsen, Roskilde University
N V U dynamics: Replacing Newton’s 2nd law with Newton’s 1st law

A22

T. B. Schrøder, Roskilde University
Theory of isomorphs: applications to generalized Lennard-Jones liquids

A23

U. Buchenau, Forschungszentrum Jülich
Relation between the shear fluctuation spectrum and the dielectric fluctuation spectrum in highly viscous liquids

A24

C. Crauste-Thibierge, CEA Saclay
An intimate relation between structure and dynamics of molecular glassforming liquids

A25

J. Papini, Roskilde University
Cooling by Heating - new phenomenon establishes subtile thermomechanical coupling

A26

M. A. Ramos, Universidad Autónoma de Madrid
Thermodynamic and kinetic properties of glass-forming monoalcohols

A27

G. Diezemann, Universität Mainz
The Kovacs effect: New insights from the Gaussian trap model

A28

C. Rehwald, Institut für Physikalische Chemie
Identification of coupling processes in supercooled liquids

A29

L. Leuzzi, University Sapienza
Dynamic and thermodynamic properties underlying secondary processes in a mean-field exactly solvable model glass

A30

T. Rizzo, Università "Sapienza"
On the Decay Exponents of Mode Coupling Theory

A31

M. Pica Ciamarra, Universitá di Napoli Federico II
Geometrical approach to the glass transition

A32

M. Schmiedeberg, Heinrich-Heine-Universität Düsseldorf
Mapping the slowdown of the dynamics of soft spheres onto hard sphere behavior

A33

R. Zargar, University of Amsterdam
Direct measurement of the free energy of hard sphere glasses

A34

I. Elyukhina, South Ural State University
Analysis of oscillating-cup technique for measurement of density and non-Newtonian properties

A35

V.I. Lad′yanov, Ural Branch of Russian Academy of Sciences
On the viscosity and the crystallization processes of the Co-(Fe, Cr)-Si-B amorphizing melts

A36

L.V. Kamaeva, Ural Branch of Russian Academy of Sciences
The use of the temperature and concentration dependences of viscosity for the study of structure of Me (Fe, Ni, Co) - P melts

A37

S. G. Menshikova, Ural Branch of Russian Academy of Sciences
On viscosity and relaxation processes of the glass-forming AL-TM-REM melts

A38

S. Wei, Saarland University
Chemical disordering of crystals and its relation to liquid-liquid transitions in strong liquids

A39

Z. Evenson, Universitaet des Saarlandes
Equilibrium viscosity, enthalpy recovery and free volume relaxation in a Zr₄₄ Ti₁₁ Ni₁₀ Cu₁₀ Be₂₅ bulk metallic glass

A40

S. Jabbari-Farouji, CNRS and Universite Paris-Sud
Isotropic-nematic transition of charged disks

A41

S. Sharifi, University of Sistan and Baluchestan
Nanoscale structural characterization and relaxation of the oil-in-water nanoemulsion with Hydrophobically End-Capped Poly (ethylene oxide)

A42

S. Sharifi, University of Sistan and Baluchestan
The effect of depletion interaction on relaxation and structure of nanoemulsion

A43

E. Del Gado, ETH Zurich
Non-linear response of dipolar colloidal gels to external fields

A44

R. Messina, Heinrich-Heine-Universität Düsseldorf
Ultra-fast quenching of binary colloidal suspensions in external magnetic fields

A45

P. E. Ramírez-González, Universidad Autónoma de San Luis Potosí
Theoretical study of aging and instantaneous quenchings in attractive Yukawa systems

Poster Session B

B1

A. Heuer, Universität Münster
Non-linear response in glass-forming systems: Computer simulations

B2

D. Winter, Universität Mainz
Non-linear single-particle-response of glassforming systems to external fields

B3

N. Koumakis University of Crete
Yielding of colloidal glasses and gels

B4

O. Herbst, Deutsches Zentrum für Luft- und Raumfahrt, Germany
Brownian dynamics simulation of extensional shear flow in dense colloidal hard-sphere systems at the glass transition

B5

S. Papenkort, Universität Konstanz and Zukunftskolleg der Universität Konstanz
Lattice-Boltzmann Simulation of Non-Newtonian Liquids

B6

T. Divoux, Université de Lyon
Transient fluidization processes leads to quantitative predictions for the Herschel-Bulkley model in Simple Yield Stress Fluids

B7

M. Hussainov, University of Tartu
Technique for Experimental Studying of Elongational Behavior of High Reactivity Viscoelastic Liquids: Application to Alkoxide-Based Sol-Gel Precursors.

B8

J. Chattoraj, Université Paris Est - Laboratoire Navier
Avalanche size in sheared amorphous solids at low temperature

B9

C. Barentin, Université de Lyon
Confined diffusion of probes in a colloidal suspension

B10

C. L. Klix, University of Konstanz
Elastic Properties of Glasses

B11

A. Lederer, Universität Mainz
Suppression of multiple scattering effects in colloidal model systems

B12

V. Nosenko, Max-Planck-Institut für extraterrestrische Physik Garching
Shear Melting and Shear Flows in a 2D Complex (Dusty) Plasma

B13

A. Bronsch, TU Bergakademie Freibrg
Particle influence on the viscosity measurements of molten slags

B14

A. Jacob, TU Bergakademie Freibrg
Determination of physical chemical properties of molten slags using molecular dynamics simulation

B16

D. Leporini, IPCF-CNR, Pisa
Scaling between Structural Relaxation and Cage Rattling in a Model Colloidal Gel

B17

D. Truzzolillo, IESL Heraklion
Star-linear polymer mixtures: a subtle balance between depletion and osmotic shrinkage

B18

F. Scheffold, University of Fribourg
Dynamics and elasticity of highly compressed microgel phases

B19

P. Bacova,
Dynamics of branch points in star polymers by computer simulations

B20

R. Juárez-Maldonado, Universidad Autónoma de Zacatecas
Effects of polydispersity on dynamic arrest properties of model colloidal systems

B21

N. Gnan, Università di Roma "La Sapienza"
Colloidal Effective Interactions: the Role of Attraction in the Solvent

B22

F. Sciortino, Università di Roma "La Sapienza"
How do Self-Assembling Polymers and Gels Age Compared to Glasses?

B23

M. Isobe, Nagoya Institute of Technology
Study of Transient Nuclei near Freezing

B24

V.A. Martinez, The University of Edinburgh
Dynamical Signature at the Freezing Transition

B25

B. Seoane, Instituto de Biocomputación y Física de Sistemas Complejos (BIFI)
Effective potential study of hard-spheres crystallization

B26

C. Valeriani, University of Edinburgh
The Crystallization of Hard-Sphere Glasses

B27

H. J. Schöpe, M. Franke, Universität Mainz
Crystallization and vitrification of a hard sphere like colloidal model system

B28

M. Camargo, Universidad Antonio Nariño
Equilibrium dynamics of binary cluster crystals

B29

S. Sastry, Centre for Advanced Scientific Research Bengaluru
Free Volume Distributions in Hard Sphere Fluid and Jammed Configurations

B30

A. Puglisi, Università di Roma "La Sapienza"
Spontaneous rotation and slow "breathing" in a vertically vibrated dense granular monolayer

B31

G. Gradenigo, Università Sapienza
Growing time and length scales in the dissipative dynamics of a granular fluid

B34

I. Buttinoni, Stuttgart University
A New Species of Active Brownian Particles

B35

H. H. Wensink, Heinrich-Heine-University-Düsseldorf
Zero Reynolds number turbulent flow in active liquid crystals

B36

P. Papadopoulos, Max Planck Institute for Polymer Reasearch
Interplay of macroscopic and microscopic viscoelastic properties in spider silk

B37

C. Maggi, Università di Roma "Sapienza"
Effective Interactions between Colloids Suspended in a Bacterial Bath

B38

C. De Michele, "Sapienza" Università di Roma
Diffusion-limited reactions in crowded environments

B39

C. Scholz, Universität Stuttgart
Flow and Transport Properties of Microstructured Porous Media

B40

F. Höfling, Max-Planck-Institut für Metallforschung Stuttgart
Lorentz-like power-law decay of velocity anti-correlations in a supercooled liquid

B41

M. Spanner, Universität Erlangen-Nürnberg
Aspects of subdiffusive transport in the Lorentz Model

B42

J. Kurzidim, Technische Universität Wien
Dynamic arrest of colloids in porous environments: disentangling crowding and confinement

B43

S. Schnyder, Deutsches Zentrum für Luft- und Raumfahrt, Germany
Influence of Matrix Dynamics on Anomalous Diffusion in Strongly Heterogeneous Binary Mixtures

B44

W. Schirmacher, Technische Universität München
Anomalous diffusion and long-time tails in quenched-disordered systems

B45

A. Sarracino, Università Sapienza
On anomalous diffusion and fluctuation-dissipation relations