Download PDFOpen PDF in browserThe Quantum Strategy of Completeness: on the SelfFoundation of MathematicsEasyChair Preprint 338712 pages•Date: May 12, 2020AbstractGentzen’s approach by transfinite induction and that of intuitionist Heyting arithmetic to completeness and the selffoundation of mathematics are compared and opposed to the Gödel incompleteness results as to Peano arithmetic. Quantum mechanics involves infinity by Hilbert space, but it is finitist as any experimental science. The absence of hidden variables in it interpretable as its completeness should resurrect Hilbert’s finitism at the cost of relevant modification of the latter already hinted by intuitionism and Gentzen’s approaches for completeness. This paper investigates both conditions and philosophical background necessary for that modification. The main conclusion is that the concept of infinity as underlying contemporary mathematics cannot be reduced to a single Peano arithmetic, but to at least two ones independent of each other. Intuitionism, quantum mechanics, and Gentzen’s approaches to completeness an even Hilbert’s finitism can be unified from that viewpoint. Mathematics may found itself by a way of finitism complemented by choice. The concept of information as the quantity of choices underlies that viewpoint. Quantum mechanics interpretable in terms of information and quantum information is inseparable from mathematics and its foundation. Keyphrases: Completeness of quantum mechanics, Gentzen proof of completeness, Gödel Incompleteness Theorems, Heyting Arithmetic, Hilbert Program, Peano arithmetic, axiom of choice, finitism, quantum mechanics
