Bounds for the Rank of the Finite Part of Operator K-Theory and Polynomially Full Groups
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We derive a lower and an upper bound for the rank of the finite part of operator K-theory groups of maximal and reduced C*-algebras of finitely generated groups. The lower bound is based on the amount of polynomially growing conjugacy classes of finite order elements in the group. The upper bound is based on the amount of torsion elements in the group. We use the lower bound to give lower bounds for the structure group S(M) and the group of positive scalar curvature metrics P(M) for an oriented manifold M. We define a class of groups called “polynomially full groups” for which the upper bound and the lower bound we derive are the same. We show that the class of polynomially full groups contains all virtually nilpotent groups. As example, we give explicit formulas for the ranks of the finite parts of operator K-theory groups for the finitely generated abelian groups, the symmetric groups and the dihedral groups. At the end, we discuss the possible directions to improve our results.
positive scalar curvature metric
polynomially full group
Samurkas, Suleyman Kagan (2018). Bounds for the Rank of the Finite Part of Operator K-Theory and Polynomially Full Groups. Doctoral dissertation, Texas A & M University. Available electronically from