Symmetries of integrable spin chains and structure of their spectra
GFM seminar
CIUL, A2-25
2009-05-29 14:30
2009-05-29 15:30
2009-05-29
14:30
..
15:30
by P. P. Kulish (GFMUL / Steklov Institute of Mathematics, St. Petersburg, Russia)
Quantum integrable spin chains usually have an underlying dynamical symmetry algebra. This can be just a Lie algebra, for isotropic models, or a quantum group, for anisotropic spin chains. Since corresponding Hamiltonians commute with global generators of the symmetry algebra, they belong to a centralizer algebra of the symmetry algebra. In many cases these two algebras give multiplicity free decomposition of the state space into irreducible representations of these algebras. As a consequence one gets the structure of the multiplets and degeneracy of the spectra of the Hamiltonians. Examples of the centralizer algebras are: group algebra of the symmetric group, its deformation - Hecke algebra, the Brauer algebra and its deformation - Birman-Wenzl-Murakami algebra.