On Second-Order Linear Sequences of Composite Numbers

On Second-Order Linear Sequences of Composite Numbers

Dan Ismailescu
Department of Mathematics
Hofstra University
Hempstead, NY 11549
USA

Adrienne Ko
Ethical Culture Fieldston School
Bronx, NY 10471
USA

Celine Lee
Chinese International School
Hong Kong SAR
China

Jae Yong Park
The Lawrenceville School
Lawrenceville, NJ 08648
USA

Abstract:

We present a new proof of the following result of Somer:
Let (a, b) ∈ Z² and let (x_n)_{n ≥ 0} be the sequence defined by some initial values x₀ and x₁ and the second-order linear recurrence x_n+1 = ax_n + bx_n−1 for n ≥ 1. Suppose that b ≠ 0 and (a,b) ≠ (2,−1),(−2,−1). Then there exist two relatively prime positive integers x₀, x₁ such that |x_n| is a composite integer for all n ∈ N.
The above theorem extends a result of Graham, who solved the problem when (a, b) = (1, 1).

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Received January 7 2019; revised versions received February 4 2019; September 8 2019; September 24 2019. Published in Journal of Integer Sequences, September 24 2019.

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On Second-Order Linear Sequences of Composite Numbers

Dan Ismailescu Department of Mathematics Hofstra University Hempstead, NY 11549 USA Adrienne Ko Ethical Culture Fieldston School Bronx, NY 10471 USA Celine Lee Chinese International School Hong Kong SAR China Jae Yong Park The Lawrenceville School Lawrenceville, NJ 08648 USA

Dan Ismailescu
Department of Mathematics
Hofstra University
Hempstead, NY 11549
USA
Adrienne Ko
Ethical Culture Fieldston School
Bronx, NY 10471
USA
Celine Lee
Chinese International School
Hong Kong SAR
China
Jae Yong Park
The Lawrenceville School
Lawrenceville, NJ 08648
USA