Memoirs of the American Mathematical Society
1 total work
Minimal Weak Truth Table Degrees and Computably Enumerable Turing Degrees
by Rodney G. Downey, Keng Meng Ng, and Reed Solomon
Published 1 October 2020
Two of the central concepts for the study of degree structures in computability theory are computably enumerable degrees and minimal degrees. For strong notions of reducibility, such as $m$-deducibility or truth table reducibility, it is possible for computably enumerable degrees to be minimal. For weaker notions of reducibility, such as weak truth table reducibility or Turing reducibility, it is not possible to combine these properties in a single degree.
This book considers how minimal weak truth table degrees interact with computably enumerable Turing degrees and obtain three main results. First, there are sets with minimal weak truth table degree which bound noncomputable computably enumerable sets under Turing reducibility. Second, no set with computable enumerable Turing degree can have minimal weak truth table degree. Third, no $\Delta^0_2$ set which Turing bounds a promptly simple set can have minimal weak truth table degree.
This book considers how minimal weak truth table degrees interact with computably enumerable Turing degrees and obtain three main results. First, there are sets with minimal weak truth table degree which bound noncomputable computably enumerable sets under Turing reducibility. Second, no set with computable enumerable Turing degree can have minimal weak truth table degree. Third, no $\Delta^0_2$ set which Turing bounds a promptly simple set can have minimal weak truth table degree.