EUDML

Currently displaying 1 – 12 of 12

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On numbers with a unique representation by a binary quadratic form

Mariusz Skałba — 1993

Acta Arithmetica

On Euler-von Mangoldt's equation

Mariusz Skałba — 1996

Colloquium Mathematicae

Linear recurrences as sums of squares

Mariusz Skałba — 2012

Acta Arithmetica

Towards Bauer's theorem for linear recurrence sequences

Mariusz Skałba — 2003

Colloquium Mathematicae

Consider a recurrence sequence ${(x_{k})}_{k \in ℤ}$ of integers satisfying $x_{k + n} = a_{n - 1} x_{k + n - 1} + . . . + a ₁ x_{k + 1} + a ₀ x_{k}$ , where $a ₀, a ₁, . . ., a_{n - 1} \in ℤ$ are fixed and a₀ ∈ -1,1. Assume that $x_{k} > 0$ for all sufficiently large k. If there exists k₀∈ ℤ such that $x_{k ₀} < 0$ then for each negative integer -D there exist infinitely many rational primes q such that $q | x_{k}$ for some k ∈ ℕ and (-D/q) = -1.

Products of disjoint blocks of consecutive integers which are powers

Mariusz Skałba — 2003

Colloquium Mathematicae

The product of consecutive integers cannot be a power (after Erdős and Selfridge), but products of disjoint blocks of consecutive integers can be powers. Even if the blocks have a fixed length l ≥ 4 there are many solutions. We give the bound for the smallest solution and an estimate for the number of solutions below x.

On Alternatives of Polynomial Congruences

Mariusz Skałba — 2004

Bulletin of the Polish Academy of Sciences. Mathematics

What should be assumed about the integral polynomials $f ₁ (x), . . ., f_{k} (x)$ in order that the solvability of the congruence $f ₁ (x) f ₂ (x) \dots f_{k} (x) \equiv 0 (m o d p)$ for sufficiently large primes p implies the solvability of the equation $f ₁ (x) f ₂ (x) \dots f_{k} (x) = 0$ in integers x? We provide some explicit characterizations for the cases when $f_{j} (x)$ are binomials or have cyclic splitting fields.