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On solutions of the Diophantine equation $L_n+L_m=3^a$

Published 2022-02-26Version 1

Let $(L_n)_{n\geq 0}$ be the Lucas sequence given by $L_0 = 2, L_1 = 1$ and $L_{n+2} = L_{n+1}+L_n$ for $n \geq 0$. In this paper, we are interested in finding all powers of three which are sums of two Lucas numbers, i.e., we study the exponential Diophantine equation $L_n + L_m = 3^{a}$ in nonnegative integers $n, m,$ and $a$. The proof of our main theorem uses lower bounds for linear forms in logarithms, properties of continued fractions, and a version of the Baker-Davenport reduction method in Diophantine approximation.

Journal: Malaya Journal of Matematik, 2021, Volume 9

DOI: 10.26637/mjm904/007

Categories: math.NT

Subjects: 11B39, 11J86

Keywords: baker-davenport reduction method, exponential diophantine equation, diophantine approximation, main theorem, lucas numbers

Tags: journal article

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