AMS Sectional Meeting Program by Special Session

Current as of Tuesday, April 12, 2005 15:10:10

Associate secretaries:
Susan J Friedlander, AMS susan@math.northwestern.edu

Saturday April 8, 2000, 9:00 a.m.-11:20 a.m.
Special Session on Integrable Systems and Nonlinear Waves, I
Room 141, DeBartolo Hall
Organizers:
Mark S. Alber, University of Notre Dame mark.s.alber.1@nd.edu
Gerard Misiolek, University of Notre Dame misiolek.1@nd.edu
- 9:00 a.m.
  Poisson Structures, Asymptotic Stability and Integrable System.
  Anthony Bloch*, University of Michigan
  (953-37-268)
- 9:30 a.m.
  Continuous Symmetries of Difference Equations.
  Pavel Winternitz*, CRM, Montreal, Canada
  (953-37-269)
- 10:00 a.m.
  Radiation Loss of Dispersion-Managed Solitons.
  William Kath*, Northwestern University
  (953-37-271)
- 10:30 a.m.
  Weak Shock Reflection.
  John Hunter*, UC Davis
  (953-37-272)
- 11:00 a.m.
  The Zero Dispersion Limit of the mKdV Hierarchy for the Nonselfadjoint ZS Operator.
  David Levermore*, University of Arizona, Tucson
  (953-37-273)

Saturday April 8, 2000, 3:00 p.m.-5:20 p.m.
Special Session on Integrable Systems and Nonlinear Waves, II
Room 141, DeBartolo Hall
Organizers:
Mark S. Alber, University of Notre Dame mark.s.alber.1@nd.edu
Gerard Misiolek, University of Notre Dame misiolek.1@nd.edu
- 3:00 p.m.
  An Eulerian-Lagrangian Approach to the Navier-Stokes Equations.
  Peter Constantin*, University of Chicago
  (953-35-274)
- 3:30 p.m.
  Solitary wave collisions in the Ion Acoustic Plasma Equations.
  David Sattinger*, Utah State University
  (953-37-275)
- 4:00 p.m.
  Nonlinear stability of density-stratified shear flows in 2-D.
  Harvey Segur*, University of Colorado, Boulder
  Micheal Weinstein, Bell Labs
  (953-35-276)
- 4:30 p.m.
  What happens after the Camassa-Holm equation breaks down.
  Henry McKean*, Courant Institute
  (953-37-279)
- 5:00 p.m.
  The long wave limit for the water wave equations and the FPU model.
  Eugene Wayne*, Boston University
  (953-35-280)

Sunday April 9, 2000, 8:30 a.m.-11:20 a.m.
Special Session on Integrable Systems and Nonlinear Waves, III
Room 141, DeBartolo Hall
Organizers:
Mark S. Alber, University of Notre Dame mark.s.alber.1@nd.edu
Gerard Misiolek, University of Notre Dame misiolek.1@nd.edu
- 8:30 a.m.
  Advection enhanced reaction-diffusion.
  Leonid Ryzhik*, University of Chicago
  Peter Constantin, University of Chicago
  A Kiselev, University of Chicago
  (953-35-281)
- 9:00 a.m.
  Elementary coadjoint orbits, Integrable Lattices and Compatible Poisson Structures.
  Michael Gekhtman*, University of Notre Dame
  Leonid Faybusovich, University of Notre Dame
  (953-37-291)
- 9:30 a.m.
  Geometric analysis of the averaged Euler equations.
  Steve Shkoller*, UC Davis
  (953-37-283)
- 10:00 a.m.
  Stability of solitary waves of a nonliner dispersive Hamiltonian system.
  Y Li*, Stevens Institute of Technology
  (953-35-284)
- 10:30 a.m.
  Peakons, Strings, and the Finite Toda Lattice.
  Jacek Szmigielski*, University of Saskatchewan
  Richard Beals, Yale University
  David Sattinger, Utah State University
  (953-37-285)
- 11:00 a.m.
  Computing with Riemann surfaces: a toolbox.
  Bernard Deconinck*, University of Washington
  (953-37-282)

Sunday April 9, 2000, 3:00 p.m.-4:20 p.m.
Special Session on Integrable Systems and Nonlinear Waves, IV
Room 141, DeBartolo Hall
Organizers:
Mark S. Alber, University of Notre Dame mark.s.alber.1@nd.edu
Gerard Misiolek, University of Notre Dame misiolek.1@nd.edu
- 3:00 p.m.
  On the Tidal Motion Around the Earth Complicated by the Circular Geometry of the Ocean's Shape.
  Ranis Ibragimov*, University of New Brunswick
  (953-37-287)
- 3:30 p.m.
  The dynamics of zeros of the solutions to the Schrodinger equation with the elliptic potential.
  Yuri Volvovski*, Columbia University
  Alexei Akhmetshin, Columbia University
  (953-37-289)
- 4:00 p.m.
  Generating Formula for the Solutions to the Associativity Equations.
  Alexei Akhmetshin*, Columbia University
  Igor Krichever, Columbia University
  Yuri Volvovsky, Columbia University
  (953-37-290)

Inquiries: meet@ams.org