English

Mass problems and intuitionistic higher-order logic

Logic 2014-08-13 v1

Abstract

In this paper we study a model of intuitionistic higher-order logic which we call \emph{the Muchnik topos}. The Muchnik topos may be defined briefly as the category of sheaves of sets over the topological space consisting of the Turing degrees, where the Turing cones form a base for the topology. We note that our Muchnik topos interpretation of intuitionistic mathematics is an extension of the well known Kolmogorov/Muchnik interpretation of intuitionistic propositional calculus via Muchnik degrees, i.e., mass problems under weak reducibility. We introduce a new sheaf representation of the intuitionistic real numbers, \emph{the Muchnik reals}, which are different from the Cauchy reals and the Dedekind reals. Within the Muchnik topos we obtain a \emph{choice principle} (xyA(x,y))wxA(x,wx)(\forall x\,\exists y\,A(x,y))\Rightarrow\exists w\,\forall x\,A(x,wx) and a \emph{bounding principle} (xyA(x,y))zxy(yT(x,z)A(x,y))(\forall x\,\exists y\,A(x,y))\Rightarrow\exists z\,\forall x\,\exists y\,(y\le_{\mathrm{T}}(x,z)\land A(x,y)) where x,y,zx,y,z range over Muchnik reals, ww ranges over functions from Muchnik reals to Muchnik reals, and A(x,y)A(x,y) is a formula not containing ww or zz. For the convenience of the reader, we explain all of the essential background material on intuitionism, sheaf theory, intuitionistic higher-order logic, Turing degrees, mass problems, Muchnik degrees, and Kolmogorov's calculus of problems. We also provide an English translation of Muchnik's 1963 paper on Muchnik degrees.

Keywords

Cite

@article{arxiv.1408.2763,
  title  = {Mass problems and intuitionistic higher-order logic},
  author = {Sankha S. Basu and Stephen G. Simpson},
  journal= {arXiv preprint arXiv:1408.2763},
  year   = {2014}
}

Comments

44 pages

R2 v1 2026-06-22T05:26:45.245Z