Disjoint spheres, approximation by imaginary quadratic numbers, and the logarithm law for geodesics

Dennis Sullivan

Type: Article

Publication Date: 1982-01-01

Citations: 203

DOI: https://doi.org/10.1007/bf02392354

Abstract

This paper is based on the principle that probabalistic independence of certain sets in Euclidean space is forced by a disjoint collection of spheres in a Euclidean space of one higher dimension.(See Figure 1.)This principle allows a new proof of (a new variant of) Khintchine's approximation theorem for almost all reals by rationals w 3. The new proof extends naturally to the approximation of almost all complex numbers by ratios of integers p/q,p, q E 0(~ / -d ) in imaginary quadratic fields.Let 0~<a(x)<l,x a positive real, be any function so that the size of a(x) up to bounded ratio only depends on the size ofx up to bounded ratio.The following theorem is proved in w 7.

Locations

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