International Workshop on Dynamics in Viscous Liquids
Rome, March 30 - April 2, 2011
List of Posters
- 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
- 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