PRIMES REPRESENTED BY BINARY CUBIC FORMS

D. R. HEATH-BROWN; B. Z. MOROZ

doi:10.1112/plms/84.2.257

Abstract

Let $f(x, y)$ be a binary cubic form with integral rational coefficients, and suppose that the polynomial $f(x, y)$ is irreducible in $\mathbb{Q}[x, y]$ and no prime divides all the coefficients of $f$. We prove that the set $f(\mathbb{Z}^{2})$ contains infinitely many primes unless $f(a, b)$ is even for each $(a, b)$ in $\mathbb{Z}^{2}$, in which case the set $\frac{1}{2}f(\mathbb{Z}^{2})$ contains infinitely many primes.

2000 Mathematical Subject Classification: primary 11N32; secondary 11N36, 11R44.

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PRIMES REPRESENTED BY BINARY CUBIC FORMS

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