Perturbations of integrable systems and Dyson-Mehta integrals

Abstract

We show that the existence of algebraic forms of quantum, exactly-solvable, completely-integrable A-B-C-D and G2, F4, E6,7,8 Olshanetsky-Perelomov Hamiltonians allow to develop the algebraic perturbation theory, where corrections are computed by pure linear algebra means. A Lie-algebraic classification of such perturbations is given. In particular, this scheme admits an explicit study of anharmonic many-body problems. The approach also allows to calculate the ratios of a certain generalized Dyson-Mehta integrals algebraically, which are interested by themselves.

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