Add to ORKGFekete polynomials associate with each prime number $p$ a polynomial with coefficients $-1$ or $1$ except the constant term, which is 0. These coefficients reflect the distribution of quadratic residues modulo $p$. These polynomials were first considered in the 19th century in relation to the studies of Dirichlet $L$-functions. In our paper, we introduce two closely related polynomials. We then express their special values at several integers in terms of certain class numbers and generalized Bernoulli numbers. Additionally, we study the splitting fields and the Galois group of these polynomials. In particular, we propose a conjecture on the structure of these Galois groups.Comment: 46 pages. To appear in Journal of Number Theor
We prove, that the sequence $1!, 2!, 3!, \dots$ produces at least $(\sqrt{2} - o(1))\sqrt{p}$ distin...
This book brings together fifty-two papers regarding primes and Fermat pseudoprimes, submitted by th...
The Fekete polynomials are dened as Fq (z) := q 1 X k=1 k q z k where q is the Leg...
Assuming a deep but standard conjecture in the Langlands programme, we prove Fermat’s Last Theorem o...
We describe a congruence property of solvable polynomials over Q, based on the irreducibility of cyc...
Call a monic integer polynomial exceptional if it has a root modulo all but a finite number of prime...
In this paper, we describe a congruence property of solvable polynomials with coefficients in the Ga...
AbstractConditions for divisibility of class numbers of algebraic number fields by prime powers are ...
It has long been known that there is a strong connection between the class numbers of quadratic fiel...
AbstractWe study properties of the polynomials φk(X) which appear in the formal development Πk − 0n ...
The Fekete polynomials are defined as [GRAPHICS] where (./q) is the Legendre symbol. These polynomia...
summary:In this article we study, using elementary and combinatorial methods, the distribution of qu...
AbstractLet p be an odd prime and suppose that for some a, b, c ϵ Z\pZ we have that ap + bp + cp = 0...
AbstractLet p be an odd prime and n an integer relatively prime to p. In this work three criteria wh...
The project aims to deliver sufficient mathematical background to understand a partial proof, due to...
We prove, that the sequence $1!, 2!, 3!, \dots$ produces at least $(\sqrt{2} - o(1))\sqrt{p}$ distin...
This book brings together fifty-two papers regarding primes and Fermat pseudoprimes, submitted by th...
The Fekete polynomials are dened as Fq (z) := q 1 X k=1 k q z k where q is the Leg...
Assuming a deep but standard conjecture in the Langlands programme, we prove Fermat’s Last Theorem o...
We describe a congruence property of solvable polynomials over Q, based on the irreducibility of cyc...
Call a monic integer polynomial exceptional if it has a root modulo all but a finite number of prime...
In this paper, we describe a congruence property of solvable polynomials with coefficients in the Ga...
AbstractConditions for divisibility of class numbers of algebraic number fields by prime powers are ...
It has long been known that there is a strong connection between the class numbers of quadratic fiel...
AbstractWe study properties of the polynomials φk(X) which appear in the formal development Πk − 0n ...
The Fekete polynomials are defined as [GRAPHICS] where (./q) is the Legendre symbol. These polynomia...
summary:In this article we study, using elementary and combinatorial methods, the distribution of qu...
AbstractLet p be an odd prime and suppose that for some a, b, c ϵ Z\pZ we have that ap + bp + cp = 0...
AbstractLet p be an odd prime and n an integer relatively prime to p. In this work three criteria wh...
The project aims to deliver sufficient mathematical background to understand a partial proof, due to...
We prove, that the sequence $1!, 2!, 3!, \dots$ produces at least $(\sqrt{2} - o(1))\sqrt{p}$ distin...
This book brings together fifty-two papers regarding primes and Fermat pseudoprimes, submitted by th...
The Fekete polynomials are dened as Fq (z) := q 1 X k=1 k q z k where q is the Leg...