Elementary divisors of Specht modules
Abstract
Let Hq(Sn) be the Iwahori-Hecke algebra of the symmetric group. This algebra is semisimple over the rational function field Q(q), where q is an indeterminate, and its irreducible representations over this field are q-analogues Sq(lambda) of the Specht modules of the symmetric group. The q-Specht modules have an "integral form" which is defined over the Laurent polynomial ring Z[q,q-1] and they come equipped with a natural bilinear form with values in this ring. Now Z[q,q-1] is not a principal ideal domain. Nonetheless, we try to compute the elementary divisors of the Gram matrix of the bilinear form on Sq(lambda). When they are defined, we give a precise relationship between the elementary divisors of the Specht modules Sq(lambda) and Sq(lambda'), where lambda' is the conjugate partition. We also compute the elementary divisors when lambda is a hook partition and give examples to show that in general elementary divisors do not exist.
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