The (N,M)-th KdV hierarchy and the associated W algebra
Abstract
We discuss a differential integrable hierarchy, which we call the (N, M)--th KdV hierarchy, whose Lax operator is obtained by properly adding M pseudo--differential terms to the Lax operator of the N--th KdV hierarchy. This new hierarchy contains both the higher KdV hierarchy and multi--field representation of KP hierarchy as sub--systems and naturally appears in multi--matrix models. The N+2M-1 coordinates or fields of this hierarchy satisfy two algebras of compatible Poisson brackets which are local and polynomial. Each Poisson structure generate an extended W1+∞ and W∞ algebra, respectively. We call W(N, M) the generating algebra of the extended W∞ algebra. This algebra, which corresponds with the second Poisson structure, shares many features of the usual WN$ algebra. We show that there exist M distinct reductions of the (N, M)--th KdV hierarchy, which are obtained by imposing suitable second class constraints. The most drastic reduction corresponds to the (N+M)--th KdV hierarchy. Correspondingly the W(N, M) algebra is reduced to the WN+M algebra. We study in detail the dispersionless limit of this hierarchy and the relevant reductions.
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