Integrable curve dynamics.

Integrable curve dynamics.

The Heisenberg Model of the integrable evolution of a continuous spin chain can be used to describe an integrable dynamics of curves in R ³. The role of orthonormal frames of the curve is explored. In this framework a second Poisson structure for the Heisenberg Model is derived and the relation betw...

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Main Author: Calini, Annalisa Maria.
Other Authors: Ercolani, Nicholas
Language:en
Published: The University of Arizona. 1994
Online Access:http://hdl.handle.net/10150/186987
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spelling ndltd-arizona.edu-oai-arizona.openrepository.com-10150-1869872015-10-23T04:33:42Z Integrable curve dynamics. Calini, Annalisa Maria. Ercolani, Nicholas Flaschka, Hermann Pickrell, Doug The Heisenberg Model of the integrable evolution of a continuous spin chain can be used to describe an integrable dynamics of curves in R ³. The role of orthonormal frames of the curve is explored. In this framework a second Poisson structure for the Heisenberg Model is derived and the relation between the Heisenberg Model and the cubic Non-Linear Schrodinger Equation is explained. The Frenet frame of a curve is shown to be a Legendrian curve in the space of orthonormal frames with respect to a natural contact structure. As a consequence, generic singularities of the solution of the Heisenberg Model and topological invariants of the curve are computed. The family of multi-phase solutions of the Heisenberg Model and the corresponding curves are constructed with techniques of algebraic geometry. The relation with the Non-Linear Schrodinger Equation is explained also in this context. A formula for the Backlund transformation for the Heisenberg Model is derived and applied to construct orbits homoclinic to planar circles. As a result singular knots are obtained. 1994 text Dissertation-Reproduction (electronic) http://hdl.handle.net/10150/186987 9517597 en Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. The University of Arizona.
collection NDLTD
language en
sources NDLTD
description The Heisenberg Model of the integrable evolution of a continuous spin chain can be used to describe an integrable dynamics of curves in R ³. The role of orthonormal frames of the curve is explored. In this framework a second Poisson structure for the Heisenberg Model is derived and the relation between the Heisenberg Model and the cubic Non-Linear Schrodinger Equation is explained. The Frenet frame of a curve is shown to be a Legendrian curve in the space of orthonormal frames with respect to a natural contact structure. As a consequence, generic singularities of the solution of the Heisenberg Model and topological invariants of the curve are computed. The family of multi-phase solutions of the Heisenberg Model and the corresponding curves are constructed with techniques of algebraic geometry. The relation with the Non-Linear Schrodinger Equation is explained also in this context. A formula for the Backlund transformation for the Heisenberg Model is derived and applied to construct orbits homoclinic to planar circles. As a result singular knots are obtained.
author2 Ercolani, Nicholas
author_facet Ercolani, Nicholas
Calini, Annalisa Maria.
author Calini, Annalisa Maria.
spellingShingle Calini, Annalisa Maria.
Integrable curve dynamics.
author_sort Calini, Annalisa Maria.
title Integrable curve dynamics.
title_short Integrable curve dynamics.
title_full Integrable curve dynamics.
title_fullStr Integrable curve dynamics.
title_full_unstemmed Integrable curve dynamics.
title_sort integrable curve dynamics.
publisher The University of Arizona.
publishDate 1994
url http://hdl.handle.net/10150/186987
work_keys_str_mv AT caliniannalisamaria integrablecurvedynamics
_version_ 1718098051897229312

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