Liquid Matter, Proceedings of the First Liquid Matter Conference of the European Physical Society, Lyon, France, 7-11 July 1990S. Bratos, Jean-Pierre Hansen, Jean-Claude Leicknam Recent trends and progress in the field of liquid matter are explored in this volume via a broad spectrum of contributions from liquid state physicists, chemists and chemical engineers. It is devoted to the microscopic, mesoscopic and macroscopic aspects of the liquid state of matter. Physicists, chemists and chemical engineers working on a wide variety of experimental and theoretical aspects of simple and complex liquids should find Liquid Matter invaluable in giving a clearer, more global picture of the liquid state. |
Contents
what can a theorist contribute? | 15 |
SA33 Critical behaviour of metallic liquids | 33 |
SA47 Chemical chaos and selforganization | 47 |
Copyright | |
32 other sections not shown
Common terms and phrases
1990 IOP Publishing amphiphile amplitude angle atoms behaviour bulk calculated capillary chains Chem chemical coefficient coexistence colloidal concentration constant contact angle correlation function corresponding critical point crystal curve density dependence diffusion dispersion displacement dodecanol effects electron ellipsometry equation equilibrium experimental experiments exponent exponential film flow fluctuations fluid fractal free energy frequency hard spheres hydrodynamic increasing instability interactions interface ionic ions IOP Publishing Ltd July 1990 Abstract kinetic layer length Lett light scattering liquid measured metals micelles microemulsion microscopic modes molecular dynamics molecules motion neutron neutron scattering observed obtained parameter particles percolation phase diagram phase transition Phys Physique polarizability polymer pore potential predicted pressure properties ratio regime region relaxation sample scale shear shown in figure solid solutions solvent spectra spectrum structure factor surface surfactant temperature theory thermal thickness velocity viscosity volume fraction water molecules wetting transition