Tuesday July 26/1:45
MS25/Seabreeze
Analysis and Applications of Hamiltonian Systems (Part 2 of 2)
(For part 1, see MS16.)
Organizers: John H. Maddocks
University of Maryland, College Park, and
Kenneth R. Meyer, University of Cincinnati
- 1:45: A Minimum Action Principle for Instability in Time Reversible Systems
Daniel Offin, Queen's University, Canada
- 2:15: "Soliton" Type Solutions in Nonintegrable Lattices and the Fermi-Pasta-Ulam Problem
Gero Friesecke, Carnegie Mellon University
- 2:45: Non-Collision Singularities in a Model 3-Body Problem
Fred Blundell, Robert Devaney, Nuria Fagella, Samuel Kaplan, and Glen R. Hall, Boston University
- 3:15: Algorithms for Infinite Dimensional Hamiltonian Systems that Preserve Exactly the Energy and the Momentum Map: Application to Nonlinear Elasticity and Rods
Juan C. Simo, Stanford University
(For part 1, see MS16.)