Variational identities and Hamiltonian structures

Wen-Xiu Ma

doi:10.1063/1.3367042

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Variational identities and Hamiltonian structures

Conference proceeding

Peer reviewed

Variational identities and Hamiltonian structures

Wen-Xiu Ma

NONLINEAR AND MODERN MATHEMATICAL PHYSICS, Vol.1212(1), pp.1-27

AIP Conference Proceedings

01/01/2010

DOI: https://doi.org/10.1063/1.3367042

Abstract

Physical Sciences

Physics

Physics, Mathematical

Science & Technology

This report is concerned with Hamiltonian structures of classical and super soliton hierarchies. In the classical case, basic tools are variational identities associated with continuous and discrete matrix spectral problems, targeted to soliton equations derived from zero curvature equations over general Lie algebras, both semisimple and non-semisimple. In the super case, a supertrace identity is presented for constructing Hamiltonian structures of super soliton equations associated with Lie superalgebras. We illustrate the general theories by the KdV hierarchy, the Volterra lattice hierarchy, the super AKNS hierarchy, and two hierarchies of dark KdV equations and dark Volterra lattices. The resulting Hamiltonian structures show the commutativity of each hierarchy discussed and thus the existence of infinitely many commuting symmetries and conservation laws.

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Title: Variational identities and Hamiltonian structures
Creators - without role: Wen-Xiu Ma
Contributors - without role: W X Ma
X B Hu
Q P Liu
Publication Details: NONLINEAR AND MODERN MATHEMATICAL PHYSICS, Vol.1212(1), pp.1-27
Series: AIP Conference Proceedings
Publisher: Amer Inst Physics
Number of pages: 27
Identifiers: 9939476808331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Conference proceeding