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In the paper, the occurrence of zeros and ones in the binary expansion of the primes is studied. In particular the statement in the title is established. The proof is unconditional.

Number Theory · Mathematics 2012-11-16 Jean Bourgain

Applying Baaz's Generalization Method and a new technique to, respectively, proofs and denumerable simple graphs, diverse arithmetical patterns are observed. In particular, sufficient conditions for a number to be a divisor of a Fermat…

Number Theory · Mathematics 2020-02-11 Lorenzo Sauras-Altuzarra

Let $P_1,\dots,P_k \colon {\bf Z} \to {\bf Z}$ be polynomials of degree at most $d$ for some $d \geq 1$, with the degree $d$ coefficients all distinct, and admissible in the sense that for every prime $p$, there exists integers $n,m$ such…

Number Theory · Mathematics 2016-03-28 Terence Tao , Tamar Ziegler

An overview of the results of new exhaustive computations of gaps between primes in arithmetic progressions is presented. We also give new numerical results for exceptionally large least primes in arithmetic progressions.

Number Theory · Mathematics 2023-04-06 Martin Raab

We prove that every arithmetic progression either contains infinitely many Carmichael numbers or none at all. Furthermore, there is a simple criterion for determining which category a given arithmetic progression falls into. In particular,…

Number Theory · Mathematics 2025-10-16 Daniel Larsen

We introduce and study arithmetic polygons. We show that these arithmetic polygons are connected to triples of square pyramidal numbers. For every odd $N\geq3$, we prove that there is at least one arithmetic polygon with $N$ sides. We also…

Number Theory · Mathematics 2026-02-16 Jack Anderson , Amy Woodall , Alexandru Zaharescu

Matom\"aki proved that if $\alpha\in \mathbb{R}$ is irrational, then there are infinitely many primes $p$ such that $|\alpha-a/p|\le p^{-4/3+\varepsilon}$ for a suitable integer a. In this paper, we extend this result to all quadratic…

Number Theory · Mathematics 2024-08-01 Stephan Baier , Sourav Das , Esrafil Ali Molla

We present some new ideas on important problems related to primes. The topics of our discussion are: simple formulae for primes, twin primes, Sophie Germain primes, prime tuples less than or equal to a predefined number, and their…

General Mathematics · Mathematics 2015-11-24 Dhananjay P. Mehendale

One of the "deepest" theorems in mathematics is Endre Szemer\'edi's theorem about the inevitability of arithmetical progressions. Here we try to nibble at it, by doing "finite" analogs. This is already interesting for its own sake, but we…

Combinatorics · Mathematics 2009-10-27 Paul Raff , Doron Zeilberger

The usual product $m\cdot n$ on $\mathbb{Z}$ can be viewed as the sum of $n$ terms of an arithmetic progression whose first term is $a_{1}=m-n+1$ and whose difference is $d=2$. Generalizing this idea, we define new similar product mappings,…

Number Theory · Mathematics 2022-06-10 F. Javier de Vega

We give a simple direct proof of Fermat's two squares theorem. Our argument uses no intricate notions or ideas; one might say that it is a proof by careful bookkeeping. As such, the proof may be particularly easy to comprehend by students…

History and Overview · Mathematics 2025-08-15 Gennady Bachman

Starting with Zhang's theorem on the infinitude of prime doubles, we give an inductive argument that there exists an infinite number of prime $k$-tuples for at least one admissible set $\mathcal{H}_k=\{h_1,\ldots,h_k\}$ for each $k$.

Number Theory · Mathematics 2018-10-26 J. LaChapelle

The square peg problem asks whether every continuous curve in the plane that starts and ends at the same point without self-intersecting contains four distinct corners of some square. Toeplitz conjectured in 1911 that this is indeed the…

Algebraic Geometry · Mathematics 2014-03-25 Wouter van Heijst

In 1837, Dirichlet proved that there are infinitely many primes in any arithmetic progression in which the terms do not all share a common factor. Modern presentations of the proof are explicitly higher-order, in that they involve…

History and Overview · Mathematics 2019-02-20 Jeremy Avigad , Rebecca Morris

In this paper we study quadratic forms which are universal when restricted to almost prime inputs, establishing finiteness theorems akin to the Conway--Schneeberger 15 theorem.

Number Theory · Mathematics 2021-07-06 Soumyarup Banerjee , Ben Kane

In this note, we try to understand the recent development on the Waring-Goldbach problem involving cubes of primes. Especially, we want to determine whether integers that are either primes, squares of primes, cubes of primes, or a cube of…

General Mathematics · Mathematics 2022-01-20 Zhichun Zhai

In this paper, we prove a theorem on the distribution of primes in cubic progressions on average.

Number Theory · Mathematics 2013-05-17 Timothy Foo , Liangyi Zhao

We find upper bounds that are sharp for the number of $k$th powers inside arbitrary arithmetic progressions whose step has $O(1)$ many divisors.

Number Theory · Mathematics 2018-12-11 Jean Bourgain , Ciprian Demeter

We prove that every integer greater than two may be written as the sum of a prime and a square-free number.

Number Theory · Mathematics 2014-10-29 Adrian Dudek

In a previous paper, the authors proved that in any system of three linear forms satisfying obvious necessary local conditions, there are at least two forms that infinitely often assume $E_2$-values; i.e., values that are products of…

Number Theory · Mathematics 2008-03-19 D. A. Goldston , S. W. Graham , J. Pintz , C. Y. Yildirim