Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
1996-04-15
Commun.Math.Phys. 188 (1997) 267-304
Physics
High Energy Physics
High Energy Physics - Theory
32 pages, LaTeX file, no figures
Scientific paper
10.1007/s002200050165
Functional relation for commuting quantum transfer matrices of quantum integrable models is identified with classical Hirota's bilinear difference equation. This equation is equivalent to the completely discretized classical 2D Toda lattice with open boundaries. The standard objects of quantum integrable models are identified with elements of classical nonlinear integrable difference equation. In particular, elliptic solutions of Hirota's equation give complete set of eigenvalues of the quantum transfer matrices. Eigenvalues of Baxter's $Q$-operator are solutions to the auxiliary linear problems for classical Hirota's equation. The elliptic solutions relevant to Bethe ansatz are studied. The nested Bethe ansatz equations for $A_{k-1}$-type models appear as discrete time equations of motions for zeros of classical $\tau$-functions and Baker-Akhiezer functions. Determinant representations of the general solution to bilinear discrete Hirota's equation and a new determinant formula for eigenvalues of the quantum transfer matrices are obtained.
Krichever Igor
Lipan Ovidiu
Wiegmann Paul
Zabrodin Anton
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