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The staircase method: integrals for periodic reductions of integrable lattice equations
Version 2 2022-03-29, 03:26Version 2 2022-03-29, 03:26
Version 1 2022-03-29, 03:24Version 1 2022-03-29, 03:24
journal contribution
posted on 2022-03-29, 03:26 authored by Pieter Van Der KampPieter Van Der Kamp, Gilles QuispelGilles QuispelWe show, in full generality, that the staircase method (Papageorgiou et al 1990 Phys. Lett. A 147 106-14, Quispel et al 1991 Physica A 173 243-66) provides integrals for mappings, and correspondences, obtained as traveling wave reductions of (systems of) integrable partial difference equations. We apply the staircase method to a variety of equations, including the Korteweg-De Vries equation, the five-point Bruschi-Calogero-Droghei equation, the quotient-difference (QD)-algorithm and the Boussinesq system. We show that, in all these cases, if the staircase method provides r integrals for an ndimensional mapping, with 2r < n, then one can introduce q ≤ 2r variables, which reduce the dimension of the mapping from n to q. These dimensionreducing variables are obtained as joint invariants of k-symmetries of the mappings. Our results support the idea that often the staircase method provides sufficiently many integrals for the periodic reductions of integrable lattice equations to be completely integrable. We also study reductions on other quad-graphs than the regular ℤ2 lattice, and we prove linear growth of the multi-valuedness of iterates of high-dimensional correspondences obtained as reductions of the QD-algorithm. © 2010 IOP Publishing Ltd.
Funding
This research has been funded by the Australian Research Council through the Centre of Excellence for Mathematics and Statistics of Complex Systems. We are grateful for the hospitality of the Isaac Newton Institute during the 2009 program on Discrete Integrable Systems.
History
Publication Date
2010-11-02Journal
Journal of Physics A: Mathematical and TheoreticalVolume
43Article Number
465207Pagination
34p.Publisher
IOP PublishingISSN
1751-8113Rights Statement
© 2010 IOP Publishing Ltd.Publisher DOI
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