An application of Baker’s method to the Jeśmanowicz’ conjecture on primitive Pythagorean triples
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Date
2019-07-11
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Springer
Abstract
Let m, n be positive integers such that m > n, gcd(m,n) = 1 and m not equivalent to n(mod2) . In 1956, L. Jesmanowicz conjectured that the equation (m(2)-n(2))(x) + (2mn)(y) = (m(2) + n(2))(z) has only the positive integer solution (x,y,z)=(2,2,2). This conjecture is still unsolved. In this paper, combining a lower bound for linear forms in two logarithms due to M. Laurent with some elementary methods, we prove that if mn equivalent to 2(mod 4) and m > 30.8n, then Jesmanowicz' conjecture is true.
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Keywords
Mathematics, Ternary purely exponential Diophantine equation, Primitive Pythagorean triple, Jesmanowicz' conjecture, Application of Baker's method
Citation
Le, M. ve Soydan, G. (2020). "An application of Baker’s method to the Jeśmanowicz’ conjecture on primitive Pythagorean triples". Periodica Mathematica Hungarica, 80(1), 74-80.