E. Applications

Patterns

Organizer(s)

Prof. Paul Fife   (fife@math.utah.edu)

Key note speaker

Prof. Raymond E. Goldstein   (gold@physics.arizona.edu)

The Viscous Nonlinear Dynamics of Twist and Writhe

Invited speakers

Prof. Dr. John O. Kessler   (kessler@physics.arizona.edu)

Modelling bioconvection at low and high volume fractions of swimming bacteria

Prof. Ehud Meron   (ehud@bgumail.bgu.ac.il)

Spatio-Temporal Phase Patterns in Forced Oscillatory Systems

Prof. Yasumasa Nishiura   (nishiura@aurora.es.hokudai.ac.jp)

Complex Pulse Dynamics in nonlinear dissipative systems

Prof. Felix Otto   (otto@math.ucsb.edu)

Spinodal decomposition in polymer solutions

Prof. Hermann Riecke   (h-riecke@nwu.edu)

Localized waves: worms in electroconvection

Prof. Dr. Thomas Wanner   (wanner@math.umbc.edu)

Spinodal Decomposition for the Cahn-Hilliard Model

Contributed talks

Dirk Bloemker   (Dirk.Bloemker@Math.Uni-Augsburg.DE)

Spinodal decomposition for the stochastic Cahn-Hilliard equation

Dr. Jan Eisner   (eisner@math.cas.cz)

Bifurcation of reaction-diffusion systems with nonstandard boundary conditions

Dr. Fred Feudel   (fred@agnld.uni-potsdam.de)

Lagrangian turbulence and the dynamo effect in Magnetohydrodynamics

Dr. Milan Kucera   (kucera@math.cas.cz)

Spatial patterns for reaction-diffusion systems with nonstandard boundary conditions

Dr. Cristina Marcelli   (marcelli@unipg.it)

Existence of bounded trajectories via upper and lower solutions

Prof. Dr. Nikolay Nefedov   (nefedov@mt384.phys.msu.su)

Asymptotics, existence and stability of solutions with internal layers of fast and slow elliptic systems

Prof. Alexander Nepomnyashchy   (nepom@leeor.math.technion.ac.il)

Convective Cahn-Hilliard models for kinetically controlled crystal growth

Dr. Vivi Rottschäfer   (vivik@bu.edu)

Co-dimension 2 phenomena in pattern formation

Dr. José Sabina de Lis   (josabina@ull.es)

Asymptotic profiles of nonlinear diffusion problems

Prof. Eckehard Schöll   (schoell@physik.tu-berlin.de)

Stabilizing unstable periodic orbits in reaction diffusion systems by global time-delayed feedback control

Prof. Dr. Norbert Seehafer   (seehafer@agnld.uni-potsdam.de)

Patterns in an electrically driven conducting fluid layer

Prof. Dr. Maxim V. Shamolin   (shamolin@inmech.msu.su)

Some Properties of Transcendent Integrable Dynamical Systems

equadiff@math.fu-berlin.de    Aug 07 1999