Math 784 — Recursion Theory

Fall 2002

 

Instructor: Richard Shore

Time: TR 11:40-12:55

Room: Malott 206

 

This will be a first course in the theory of computability. We will assume some background in logic. Math 681 or Computer Science 682 should be more than sufficient. This term we will concentrate on the recursively (computably) enumerable sets and degrees. The text will be Recursively Enumerable Sets and Degrees by R. I. Soare (Springer-Verlag).

We will begin with a brief discussion of the basic properties of a reasonable model of computability: universal machines, the enumeration, s-m-n and recursion theorems, r.e. (effectively or computably enumerable) sets and the halting problem (one week). Next will come the notions of relative computability, the Turing jump operator and the arithmetical hierarchy (two weeks).

There will be some development of construction procedures for non-r.e. sets including the Kleene-Post finite extension method (really Cohen forcing in arithmetic) and perhaps minimal degree constrictions by forcing with trees (perfect set forcing). The heart of the course, however, will be the development of various kinds of priority arguments for the construction of r.e. sets including finite and infinite injury as well as tree arguments. We will use these methods to analyze the structure of the (Turing) degrees of r.e. sets and something of their set theoretic structure as well. Connections between degree theoretic and other properties such as types of approximations, rates of growth and complexity of definition will be considered.