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Linear forms in p-adic logarithms and the Diophantine equation formula here

Published online by Cambridge University Press:  01 November 1999

YANN BUGEAUD
Affiliation:
Université Louis Pasteur, UFR de Mathématiques, 7 rue René Descartes, 67084 Strasbourg, France; e-mail: [email protected]

Abstract

A longstanding conjecture claims that the Diophantine equation

formula here

has finitely many solutions and, maybe, only those given by

formula here

Among the known results, let us mention that Ljunggren [9] solved (1) completely when q = 2 and that very recently Bugeaud et al. [3] showed that (1) has no solution when x is a square. For more information and in particular for finiteness type results under some extra hypotheses, we refer the reader to Nagell [11], Shorey & Tijdeman [16, 17] and to the recent survey of Shorey [15]. One of the main tools used in most of the proofs is Baker's theory of linear form in archimedean logarithms of algebraic numbers and especially a dramatic sharpening obtained when the algebraic numbers involved are closed to 1. This was first noticed by Shorey [14], and has been applied in numerous works relating to (1) or to the Diophantine equation

formula here

see for instance [1, 5, 10]. The purpose of the present work is to prove a similar sharpening for linear forms in p-adic logarithms and to show how it can be applied in the context of (1). Further, following previous investigations by Sander [12] and Saradha & Shorey [13], we derive from our results an irrationality statement for Mahler's numbers.

Type
Research Article
Copyright
© The Cambridge Philosophical Society 1999

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