Solvability of the $F_4$ Integrable System

Details Solvability of the $F_4$ Integrable System Solvability of the $F_4$ Integrable System

2001-08-04

arxiv.org/abs/hep-th/0108021v2

Int.J.Mod.Phys. A16 (2001) 4769

Physics

High Energy Physics

High Energy Physics - Theory

35 pages, LaTeX

Scientific paper

10.1142/S0217751X0100550X

It is shown that the $F_4$ rational and trigonometric integrable systems are exactly-solvable for {\it arbitrary} values of the coupling constants. Their spectra are found explicitly while eigenfunctions by pure algebraic means. For both systems new variables are introduced in which the Hamiltonian has an algebraic form being also (block)-triangular. These variables are invariant with respect to the Weyl group of $F_4$ root system and can be obtained by averaging over an orbit of the Weyl group. Alternative way of finding these variables exploiting a property of duality of the $F_4$ model is presented. It is demonstrated that in these variables the Hamiltonian of each model can be expressed as a quadratic polynomial in the generators of some infinite-dimensional Lie algebra of differential operators in a finite-dimensional representation. Both Hamiltonians preserve the same flag of polynomials and each subspace of the flag coincides with the finite-dimensional representation space of this algebra. Quasi-exactly-solvable generalization of the rational $F_4$ model depending on two continuous and one discrete parameters is found.

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