N=4 super KdV hierarchy in N=4 and N=2 superspaces
Abstract
We present the results of further analysis of the integrability properties of the N=4 supersymmetric KdV equation deduced earlier by two of us (F.D. \& E.I.) as a hamiltonian flow on N=4 SU(2) superconformal algebra in the harmonic N=4 superspace. To make this equation and the relevant hamiltonian structures more tractable, we reformulate it in the ordinary N=4 and further in N=2 superspaces. In N=2 superspace it is given by a coupled system of evolution equations for a general N=2 superfield and two chiral and antichiral superfields, and involves two independent real parameters, a and b. We construct a few first bosonic conserved charges in involution, of dimensions from 1 to 6, and show that they exist only for the following choices of the parameters: (i) a= 4, \;b=0; (ii) a= -2,\; b= -6; (iii) a= -2, \;b= 6. The same values are needed for the relevant evolution equations to be bi-hamiltonian. We demonstrate that these three options are related via SU(2) transformations and actually amount to the SU(2) covariant integrability condition found in the harmonic superspace approach. Our results provide a strong evidence that the unique N=4 SU(2) super KdV hierarchy exists. Upon reduction to N=2 KdV, the above three possibilities cease to be equivalent. They give rise to the a=4 and a=-2 N=2 KdV hierarchies, which thus prove to be different truncations of the single N=4 SU(2) KdV one.
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