Full name: Jens Rademacher
Formal name: Dr. J.D.M. Rademacher
Function: Scientific Staff Member
Email: Jens.Rademacher@cwi.nl
Telephone +31(0)20 592 4240
Room: M132
Research groups:
(MAC3) Multiscale Modelling and Nonlinear Dynamics
Formal name: Dr. J.D.M. Rademacher
Function: Scientific Staff Member
Email: Jens.Rademacher@cwi.nl
Telephone +31(0)20 592 4240
Room: M132
Research groups:
(MAC3) Multiscale Modelling and Nonlinear Dynamics
Research
Work in the field of evolutionary differential equations, with focus on analysis of qualitative properties of solutions and coherent structures.
Specifically nonlinear ordinary, partial and lattice differential equations with relation to application problems in ecology, biology and physics.
Main results concern the rigorous treatment of spectral problems and bifurcations as well as methods in the applied literature and phenomena in pattern forming processes.
Career
| 2010 - | Scientific staff member MAC3 - Multiscale Modelling and Nonlinear Dynamics |
| 2006 - 2009 | Scientific staff member MAS3 - Multiscale Modelling and Nonlinear Dynamics |
Selected Academic Activities
| 2011 | Member organizing committee SIAM Conference on Applications of Dynamical Systems - [DS] |
| 2010 - 2011 | Editor-in-chief Journal SIAM DSWeb Magazine |
Selected Publications
| J.D.M. Rademacher. Lyapunov-Schmidt reduction for unfolding heteroclinic networks of equilibria and periodic orbits with tangencies. Journal of Differential Equations 249, 305–348, 2010. |
| M. Herrmann, J.D.M. Rademacher. Heteroclinic travelling waves in convex FPU-type chains. SIAM Journal on Mathematical Analysis 42, 1483–1504, 2010. |
| M. Herrmann, J.D.M. Rademacher. Riemann solvers and undercompressive shocks of convex FPU chains. Nonlinearity 23, 277–304, 2010. |
| A.R. Champneys, V. Kirk, E. Knobloch, B. Oldeman, J.D.M. Rademacher. Unfolding a tangent equilibrium-to-periodic heteroclinic cycle. SIAM Journal on Applied Dynamical Systems 8, 1261–1304, 2009. |
| J.A. Sherratt, M. Smith, J.D.M. Rademacher. Locating the transition from periodic oscillations to spatiotemporal chaos in the wake of invasion. Proceedings of the National Academy of Sciences of the United States of America 106, 10890–10895, 2009. |
