Goldbach versus de Polignac numbers
Number Theory
2021-02-19 v3
Abstract
In this note we use recent developments in sieve theory to highlight the interplay between Goldbach and de Polignac numbers. Assuming that the primes have level of distribution greater than , we show that at least one of two nice properties holds. Either consecutive Goldbach numbers lie within a finite distance from one another or else the set of de Polignac numbers has full density in . Using very similar techniques we give a conditional proof that the set of limit points of the sequence of normalised prime gaps has density at least in the positive reals.
Cite
@article{arxiv.1505.03104,
title = {Goldbach versus de Polignac numbers},
author = {Jacques Benatar},
journal= {arXiv preprint arXiv:1505.03104},
year = {2021}
}
Comments
The main difference in this version is that we assume the primes have level of distribution greater than 1/2 to prove Theorem 1.1