Schinzel's hypothesis H: Difference between revisions

Statement

Suppose ${\displaystyle f_{1},f_{2},\dots ,f_{r}}$ are all irreducible polynomials with integer coefficients and with positive leading coefficient, such that the product ${\displaystyle \prod _{i=1}^{r}f_{i}}$ does not have any fixed divisors, i.e., it cannot be expressed as a proper multiple of an integer-valued polynomial. Schinzel's hypothesis H states that there are infinitely many natural numbers ${\displaystyle n}$ satisfying the condition that ${\displaystyle f_{1}(n),f_{2}(n),\dots ,f_{r}(n)}$ are all simultaneously prime.

Related facts and conjectures

Fact or conjecture	Status	How it fits with Schinzel's hypothesis H
Bunyakovsky conjecture	open	We are dealing with only one irreducible polynomial of degree two or higher
Dirichlet's theorem on primes in arithmetic progressions	proved	We are dealing with one irreducible polynomial of degree one
Twin primes conjecture	open	We are dealing with the irreducible polynomials ${\displaystyle x}$ and ${\displaystyle x+2}$