1998

1. The Euler-Poincaré Equations in Geophysical Fluid Dynamics, Holm, D.D., Marsden, J.E., Ratiu, T.S., Isaac Newton Institute Proceedings, (pdf)
2. The Camassa-Holm equations as a closure model for turbulent channel flow, Chen, S., Foias, C., Holm, D.D., Olson, E., Titi, E.S., Wynne, S., (pdf)
3. Hamilton's principle for quasigeostrophic motion, Holm, D.D., Zeitlin, V., (pdf)
4. The Maxwell-Vlasov equations in Euler-Poincaré form, Cendra, H., Holm, D.D., Hoyle, M.J.W., Marsden, J.E., (pdf)
5. The Euler-Poincaré Equations and Semidirect Products with Applications to Continuum Theories, Holm, D.D., Marsden, J.E., Ratiu, T., (pdf)
6. Euler-Poincaré models of ideal fluids with nonlinear dispersion, Holm, D.D., Marsden, J.E., Ratiu, T., (pdf)
7. Essential manifold reduction and nonlinear quasi-geostrophic waves, Duan, JQ; Holm, DD, 3RD INTERNATIONAL CONFERENCE ON NONLINEAR MECHANICS; 1998; p.622-625
8. Camassa-Holm equations as a closure model for turbulent channel and pipe flow, Chen, S; Foias, C; Holm, DD; Olson, E; Titi, ES; Wynne, S, PHYSICAL REVIEW LETTERS; DEC 14 1998; v.81, no.24, p.5338-5341 (pdf)
9. The Euler-Poincare equations and semidirect products with applications to continuum theories, Holm, DD; Marsden, JE; Ratiu, TS, ADVANCES IN MATHEMATICS; JUL 15 1998; v.137, no.1, p.1-81 (pdf)

Last Updated: January 2004