A Bi-Hamiltonian Structure for the Integrable, Discrete Non-Linear Schrodinger System

Ann Arbor; AZ; Guadalupe I. Lozano (Dept. of Mathematics; MI; Nicholas M. Ercolani (Dept. of Mathematics; Tucson; University of Arizona; University of Michigan; USA)

arxiv: math/0504348 · v1 · submitted 2005-04-17 · 🧮 math.SG · math.DS

A Bi-Hamiltonian Structure for the Integrable, Discrete Non-Linear Schrodinger System

Nicholas M. Ercolani (Dept. of Mathematics , University of Arizona , Tucson , AZ , USA) , Guadalupe I. Lozano (Dept. of Mathematics , University of Michigan , Ann Arbor

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keywords integrableoperatorbi-hamiltoniandiscreteequationshierarchynon-linearpoisson

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This paper shows that the Ablowitz-Ladik hierarchy of equations (a well-known integrable discretization of the Non-linear Schrodinger system) can be explicitly viewed as a hierarchy of commuting flows which: (a) are Hamiltonian with respect to both a standard, local Poisson operator J and a new non-local, skew, almost Poisson operator K, on the appropriate space; (b) can be recursively generated from a recursion operator R (obtained by composing K and the inverse of J.) In addition, the proof of these facts relies upon two new pivotal resolvent identities which suggest a general method for uncovering bi-Hamiltonian structures for other families of discrete, integrable equations.

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A Bi-Hamiltonian Structure for the Integrable, Discrete Non-Linear Schrodinger System

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