Mathematics – Algebraic Geometry
Scientific paper
2003-10-31
Mathematics
Algebraic Geometry
Scientific paper
We present a bridge between the KP soliton equations and the Calogero-Moser many-body systems through noncommutative algebraic geometry. The Calogero-Moser systems have a natural geometric interpretation as flows on spaces of spectral curves on a ruled surface. We explain how the meromorphic solutions of the KP hierarchy have an interpretation via a noncommutative ruled surface. Namely, we identify KP Lax operators with vector bundles on quantized cotangent spaces (formulated technically in terms of D-modules). A geometric duality (a variant of the Fourier-Mukai transform) then identifies the parameter space for such vector bundles with that for the spectral curves and sends the KP flows to the Calogero-Moser flows. It follows that the motion and collisions of the poles of the rational, trigonometric, and elliptic solutions of the KP hierarchy, as well as of its multicomponent analogs, are governed by the (spin) Calogero-Moser systems on cuspidal, nodal, and smooth genus one curves. This provides a geometric explanation and generalizations of results of Airault-McKean-Moser, Krichever, and Wilson.
Ben-Zvi David
Nevins Thomas
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