Symmetries and exact solutions of some integrable Haldane-Shastry like spin chains
Abstract
By using a class of `anyon like' representations of permutation algebra, which pick up nontrivial phase factors while interchanging the spins of two lattice sites, we construct some integrable variants of SU(M) Haldane-Shastry (HS) spin chain. Lax pairs and conserved quantities for these spin chains are also found and it is established that these models exhibit multi-parameter deformed or nonstandard variants of Y(glM) Yangian symmetry. Moreover, by projecting the eigenstates of Dunkl operators in a suitable way, we derive a class of exact eigenfunctions for such HS like spin chain and subsequently conjecture that these exact eigenfunctions would lead to the highest weight states associated with a multi-parameter deformed or nonstandard variant of Y(glM) Yangian algebra. By using this conjecture, and acting descendent operator on the highest weight states associated with a nonstandard Y(gl2) Yangian algebra, we are able to find out the complete set of eigenvalues and eigenfunctions for the related HS like spin-1 2 chain. It turns out that some additional energy levels, which are forbidden due to a selection rule in the case of SU(2) HS model, interestingly appear in the spectrum of above mentioned HS like spin chain having nonstandard Y(gl2) Yangian symmetry.
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