A discrete chain of degrees of index sets

Abstract

Let {W_i} be a standard enumeration of all recursively enumerable (r.e.) sets, and for any class A of r.e. sets, let θA denote the index set of A = {n ∣ W_n ∈ A}. (Clearly, .) In [1], the index sets of nonempty finite classes of finite sets were classified under one-one reducibility into an increasing sequence {Y_m}, 0 ≤ m < ∞. In this paper we examine further properties of this sequence within the partial ordering of one-one degrees of index sets. The main results are as follows: (1) For each m, Y_m < Y_{m + 1} and < Y_{m + 1}; (2) Y_m is incomparable to ; (3) Y_{m + 1} and ; are immediate successors (among index sets) of Y_m and _m; (4) the pair (Y_{m + 1}, ) is a “least upper bound” for the pair (Y_m, ) in the sense that any successor of both Y_m and is ≥ Y_{m + 1}or; (5) the pair (Y_m, ) is a “greatest lower bound” for the pair (Y_{m + 1}, ) in the sense that any predecessor of both Y_{m + 1} and is ≤ Y_m or . Since and all Y_m are in the bounded truth-table degree of K, this yields some local information about the one-one degrees of index sets which are “at the bottom” in the one-one ordering of index sets.