Explicit mathematics with the monotone fixed point principle

Journal of Symbolic Logic 63 (2):509-542 (1998)
  Copy   BIBTEX

Abstract

The context for this paper is Feferman's theory of explicit mathematics, a formal framework serving many purposes. It is suitable for representing Bishop-style constructive mathematics as well as generalized recursion, including direct expression of structural concepts which admit self-application. The object of investigation here is the theory of explicit mathematics augmented by the monotone fixed point principle, which asserts that any monotone operation on classifications (Feferman's notion of set) possesses a least fixed point. To be more precise, the new axiom not merely postulates the existence of a least solution, but, by adjoining a new functional constant to the language, it is ensured that a fixed point is uniformly presentable as a function of the monotone operation. The upshot of the paper is that the latter extension of explicit mathematics (when based on classical logic) embodies considerable proof-theoretic strength. It is shown that it has at least the strength of the subsystem of second order arithmetic based on Π 1 2 comprehension

Categories

Keywords

Reprint years

DOI

10.2307/2586846

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 92,440

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Monotone inductive definitions in explicit mathematics.Michael Rathjen - 1996 - Journal of Symbolic Logic 61 (1):125-146.
On the intuitionistic strength of monotone inductive definitions.Sergei Tupailo - 2004 - Journal of Symbolic Logic 69 (3):790-798.
On power set in explicit mathematics.Thomas Glass - 1996 - Journal of Symbolic Logic 61 (2):468-489.
Tarski's fixed-point theorem and lambda calculi with monotone inductive types.Ralph Matthes - 2002 - Synthese 133 (1-2):107 - 129.
Minimal Predicates. Fixed-Points, and Definability.Johan Van Benthem - 2005 - Journal of Symbolic Logic 70 (3):696 - 712.
Power types in explicit mathematics?Gerhard Jäger - 1997 - Journal of Symbolic Logic 62 (4):1142-1146.
The Proof-Theoretic Analysis of Transfinitely Iterated Quasi Least Fixed Points.Dieter Probst - 2006 - Journal of Symbolic Logic 71 (3):721 - 746.
Explicit mathematics with the monotone fixed point principle. II: Models.Michael Rathjen - 1999 - Journal of Symbolic Logic 64 (2):517-550.

Analytics

Added to PP
2009-01-28

Downloads
188 (#106,568)

6 months
15 (#174,396)

Historical graph of downloads
How can I increase my downloads?

Author's Profile

Michael Rathjen
University of Leeds

Citations of this work

Add more citations

References found in this work

Theory of Recursive Functions and Effective Computability.Hartley Rogers - 1971 - Journal of Symbolic Logic 36 (1):141-146.
Elementary Induction on Abstract Structures.Wayne Richter - 1979 - Journal of Symbolic Logic 44 (1):124-125.
Mathematical Logic.Donald Monk - 1975 - Journal of Symbolic Logic 40 (2):234-236.

Add more references