A note on the paper by Bugeaud and Laurent “Minoration effective de la distance p-adique entre puissances de nombres algébriques”

Yamada, Tomohiro

doi:10.1016/j.jnt.2010.02.018

Cited by 3 publications

(3 citation statements)

References 11 publications

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“…Yamada [46], by making use of a refinement of an estimate of Bugeaud and Laurent [7] for linear forms in two p-adic logarithms, proved that there is a positive number C 2 , which is effectively computable in terms of ω(a), such that ord p (a p−1 − 1) < C 2 (p/(log p) 2 ) log a.…”

Section: Introductionmentioning

confidence: 99%

On divisors of Lucas and Lehmer numbers

Stewart

2013

Acta Math.

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Let un be the n-th term of a Lucas sequence or a Lehmer sequence. In this article we shall establish an estimate from below for the greatest prime factor of un which is of the form n exp(log n/104 log log n). In so doing we are able to resolve a question of Schinzel from 1962 and a conjecture of Erdős from 1965. In addition we are able to give the first general improvement on results of Bang from 1886 and Carmichael from 1912. P (a n − b n ) ≥ n + 1,while in the special case that b = 1 the result is due to Bang [4] in 1886. In 1930 showed that the divisibility properties of Lucas numbers hold in a more general setting. Suppose that (α + β) 2 and αβ are coprime non-zero integers with α/β not a root of unity and, for n > 0, put u n = (α n − β n )/(α − β) for n odd, (α n − β n )/(α 2 − β 2 ) for n even.

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Section: Introductionmentioning

confidence: 99%

On divisors of Lucas and Lehmer numbers

Stewart

2013

Acta Math.

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“…One can see Lemma 7 as a lower bound for a very special linear form of two q-adic logarithms (cf. Yamada's work [21] on upper bounds for v p (x p−1 − 1)). However, we will also use lower bounds for linear forms in complex logarithms.…”

Section: Auxiliary Resultsmentioning

confidence: 99%

“…But the problem is that to the authors knowledge for fixed p we do not know how large u p = v p (q p−1 − 1) can get. To the authors knowledge the best known upper bound for u p is due to Yamada [21] who used the very sharp results due to Bugeaud and Laurent [3] for linear forms in two p-adic logarithms. In particular, Yamada obtained that u p ≤ 283(p − 1) log 2 log p · log 2q log p + 4.…”

Section: Further Remarks and Open Problemsmentioning

confidence: 99%

On the existence of S-Diophantine quadruples

Ziegler

2019

Glas. Mat. Ser. III

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Let S be a set of primes. We call an m-tuple (a 1 , . . . , am) of distinct, positive integers S-Diophantine, if for all i = j the integers s i,j := a i a j + 1 have only prime divisors coming from the set S, i.e. if all s i,j are S-units. In this paper, we show that no S-Diophantine quadruple (i.e. m = 4) exists if S = {3, q}. Furthermore we show that for all pairs of primes (p, q) with p < q and p ≡ 3 mod 4 no {p, q}-Diophantine quadruples exist, provided that (p, q) is not a Wieferich prime pair.2010 Mathematics Subject Classification. 11D61, 11D45.

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On divisors of Lucas and Lehmer numbers

Stewart

2010

Preprint

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A note on the paper by Bugeaud and Laurent “Minoration effective de la distance p-adique entre puissances de nombres algébriques”

Cited by 3 publications

References 11 publications

On divisors of Lucas and Lehmer numbers

On divisors of Lucas and Lehmer numbers

On the existence of S-Diophantine quadruples

On divisors of Lucas and Lehmer numbers

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