Super--Lax Operator Embedded in Self--Dual Supersymmetric Yang--Mills Theory

Abstract

We show that the super-Lax operator for ~N=1~ supersymmetric Kadomtsev-Petviashvili equation of Manin and Radul in three-dimensions can be embedded into recently developed self-dual supersymmetric Yang-Mills theory in ~2+2\-dimensions, based on general features of its underlying super-Lax equation. The differential geometrical relationship in superspace between the embedding principle of the super-Lax operator and its associated super-Sato equation is clarified. This result provides a good guiding principle for the embedding of other integrable sub-systems in the super-Lax equation into the four-dimensional self-dual supersymmetric Yang-Mills theory, which is the consistent background for ~N=2~ superstring theory, and potentially generates other unknown supersymmetric integrable models in lower-dimensions.

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