English

Blueprints - towards absolute arithmetic?

Algebraic Geometry 2012-04-17 v1 Number Theory

Abstract

One of the driving motivations to develop \F1\F_1-geometry is the hope to translate Weil's proof of the Riemann hypothesis from positive characteristics to number fields, which might result in a proof of the classical Riemann hypothesis. The underlying idea is that the spectrum of Z\Z should find an interpretation as a curve over \F1\F_1, which has a completion \SpecZˉ\bar{\Spec\Z} analogous to a curve over a finite field. The hope is that intersection theory for divisors on the arithmetic surface \SpecZˉ×\SpecZˉ\bar{\Spec\Z} \times \bar{\Spec\Z} will allow to mimic Weil's proof. It turns out that it is possible to define an object \SpecZˉ\bar{\Spec\Z} from the viewpoint of blueprints that has certain properties, which come close to the properties of its analogs in positive characteristic. This shall be explained in the following note, which is a summary of a talk given at the Max Planck Institute in March, 2012.

Keywords

Cite

@article{arxiv.1204.3129,
  title  = {Blueprints - towards absolute arithmetic?},
  author = {Oliver Lorscheid},
  journal= {arXiv preprint arXiv:1204.3129},
  year   = {2012}
}

Comments

This note is the summary of a talk given at the Max Planck Institute in March, 2012. 11 pages

R2 v1 2026-06-21T20:49:20.711Z