MIDIT OFD CATS Modelling, Nonlinear Dynamics Optics and Fluid Dynamics Chaos and Turbulence Studies and Irreversible Thermodynamics Risø National Laboratory Niels Bohr Institute and Technical University of Denmark Building 128 Department of Chemistry Building 321 P.O. Box 49 University of Copenhagen DK-2800 Lyngby DK-4000 Roskilde DK-2100 Copenhagen Ø Denmark Denmark Denmark
The Center for Modelling, Nonlinear Dynamics and Irreversible Thermodynamics (MIDIT) at the Technical University of Denmark (DTU), the Department of Optics and Fluid Dynamics (OFD) at Risø National Laboratory (Risø), and the Center of Chaos and Turbulence Studies (CATS) at Copenhagen University (KU) conduct a Graduate School in Nonlinear Science.
In collaboration with industry, this school provides a Danish Ph.D. program at the highest international level with the aim of preparing students to apply recent advances in Nonlinear Science to outstanding problems of science and technology and to strengthen international exchange of Ph.D. students.
Over the past three decades, science has experienced a revolutionary shift in its fundamental paradigms. Primarily based on linear models through the 1960s, scientific research is now commonly motivated by nonlinear concepts, in which the whole is more than the sum of its parts, and the emergence of qualitatively new phenomena is anticipated and made welcome.
The basic theme of modern Nonlinear Science is the interplay between chaos and coherent structures. Formerly deemed unworthy of the attention of a serious scientist, low order systems of nonlinear ordinary differential equations are now known to exhibit explosive behavior, leading to the emergence of strange attractors upon which phase space trajectories wander aimlessly until the end of time. Largely ignored as being far too difficult to solve analytically, nonlinear partial differential equations have been found to generate the emergence of solitary waves, which interact as new dynamic entities at higher levels of description. These new paradigms lead to significant advances in our understanding of a number of observed phenomena in physics, chemistry, and biology. From the theory, methods for constructive applications in the engineering sciences have been developed, using computer technology.
In the 1980's a number of centers for Nonlinear Science were established at universities and research institutions in U.S.A., the European countries, and in Japan. In Denmark, MIDIT was formed at DTU in 1985 and CATS at KU in 1993. In close collaboration with other Danish universities and research institutions - e.g. OFD at RISØ - research as well as Ph.D. and Master's Degree education were initiated at a very early stage.
Jointly, MIDIT, OFD, and CATS form the major part of the national activity within Nonlinear Science. The early and persistent effort has given Denmark a central placing and recognition within the international Nonlinear Science community.
It is in the spirit of this growing activity that the Graduate School will operate. Although seemingly diverse at first reading, the facets of this activity are, in fact, closely interrelated components of modern research in nonlinear dynamics including scientific computing and experimental research.
The Graduate School in Nonlinear Science was established in 1997 by The Danish Research Academy as a collaboration between MIDIT, OFD and CATS.
was established at DTU in 1985. Today scientists from the DTU departments of
Mathematics, Mathematical Modelling, Physics, Chemistry, Chemical and Energy
Engineering collaborate within the Centre. The scientific background for MIDIT
is the decisive break-throughs that have occurred in the last three decades in
nonlinear dynamics and far-from-equilibrium statistical physics, combined with
the possibilities offered by modern computer technology for detailed modelling
and simulation of complex phenomena.
The applications of the new tools from Nonlinear Science within the boundary areas between mathematics and physics on one hand and chemistry, technological sciences, biology and economy on the other are manifold. MIDIT stimulates research and engineering education within Nonlinear Science and its applications.
Chairman: Erik Mosekilde. Scientific Staff: 27
at Risø performs research and development within systems, structures and
materials for optical measurements and information processing based on
diffractive optics and nonlinear dynamics. OFD hosts close interaction between
theory and experiments.
Core competences within physical optics (electromagnetic interaction with matter, materials with special optical properties), nonlinear continuum dynamics (self-organization, pattern formation, parametric oscillations and amplification, soliton dynamics, collapse and turbulence in fluids and plasmas), scientific computing and information processing.
Head of Department: Jens Peter Lynov. Scientific staff: 25
was established in 1993 by the Danish Natural Science Research Council (SNF).
The Center consists of groups from the Niels Bohr Institute/Nordita (NBI),
Department of Chemistry, H. C. Ørsted Institute (HCØ), KU, and Department of
The scientific background for CATS is the fundamental insight that the simplest laws of nature can lead to bewildering complex dynamics, and that at the same time such dynamics exhibit universal features largely independent of the details of the particular underlying dynamical system.
The Center pursues theoretical and experimental research in chaos, turbulence and related problems in physics, chemistry and biology. The Center brings together the groups which are actively conducting research and education in Nonlinear Science.
Head of Center: Mogens Høgh Jensen. Scientific Staff: 20
of the Graduate School in Nonlinear Science until October 2000 is professor,
dr. techn. Peter
L. Christiansen, Department of Mathematical Modelling, DTU.
Christiansen holds Master of Science, Ph. D. and dr. techn. degrees from DTU. Since 1966 he has worked at DTU and served as Head of the Laboratory of Applied Mathematical Physics 1977-79 and 81-89. Since its beginning in 1985 he has been coordinating secretary for the DTU Center MIDIT. He has been a research associate and a visiting professor at the Universities of Michigan, New York (Courant Institute of Mathematical Sciences), Minnesota, Arizona, and Naples and at Los Alamos National Laboratory. He is author and co-author of more than 130 papers in scientific journals and is presently on the editorial board of Physica Scripta. He has taught many courses in Applied Mathematics and Nonlinear Science and supervised more than 30 Ph. D. students.
head from October 2000 is Senior Research Specialist Jens Juul Rasmussen OFD,
Risø National Laboratory.
He holds M. Sc., and Ph. D. degrees from DTU. Since 1975 he has worked at Risø National Laboratory. He is author and co-author of more than 150 papers
in scientific journals and serves on the editorial board of Physica Scripta from 1999. He has participated in Post. Graduate courses in Nonlinear
Science and has supervised 13 Ph. D. students.
The Graduate School in Nonlinear Science hosts professional activity at DTU and KU, under the auspices of the directors of Ph.D. studies, the Ph.D. study councils, and program committees. in accordance with the University Law. The head is in charge of the daily running of the school, assisted by the executive committee of the steering committee of the Graduate School. The steering committee assists the head in the direction of the school, the planning and implementation of the activities and the contacts with foreign scientists, institutions and Ph.D. students. Members of the steering committee are:
Peter L. Christiansen, MIDIT, DTU (until October 2000).
Jens Juul Rasmussen, OFD, Risø National Laboratory (from October 2000).
· Morten Brøns, MIDIT, DTU
· Thomas Bohr, FYS, DTU
· Peter L. Christiansen*), MIDIT, DTU
· Morten Colding-Jørgensen, NOVO NORDISK
· Mogens Høgh Jensen, NBI, UC
· Per Michael Johansen, OFD, Risø
· Sten Bay Jørgensen, MIDIT, DTU
· Erik Mosekilde*), MIDIT, DTU
· Ole Mouritsen, MIDIT, DTU
· Jesper Mygind, MIDIT, DTU
· Jens Juul Rasmussen*), OFD, Risø
· Alwyn C. Scott, MIDIT, DTU
· Jens Nørkær Sørensen, MIDIT, DTU
· Preben Graae Sørensen*), HCØ, UC
*) Member of executive committee
As part of the teaching program, we have invited leading international scholars to present lectures within their areas of interest and to interact with our current research activities. In addition to our Danish students, highly qualified foreign students will be supported to provide an international atmosphere appropriate for the challenges of a new century.
The teaching program will consist of three types of events:
Guest Professors are presenting lectures for our Danish students and the foreign PhD students who have already accepted invitations to enroll. A number of leading scholars in applied nonlinear science will visit in the near future.