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1992 | Buch

Rational Series Kapitel lesen Erstes Kapitel lesen

Pisot and Salem Numbers

verfasst von: Dr. M. J. Bertin, Dr. A. Decomps-Guilloux, Prof. M. Grandet-Hugot, Dr. M. Pathiaux-Delefosse, Prof. J. P. Schreiber

Verlag: Birkhäuser Basel

Enthalten in: Professional Book Archive

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Über dieses Buch

the attention of The publication of Charles Pisot's thesis in 1938 brought to the mathematical community those marvelous numbers now known as the Pisot numbers (or the Pisot-Vijayaraghavan numbers). Although these numbers had been discovered earlier by A. Thue and then by G. H. Hardy, it was Pisot's result in that paper of 1938 that provided the link to harmonic analysis, as discovered by Raphael Salem and described in a series of papers in the 1940s. In one of these papers, Salem introduced the related class of numbers, now universally known as the Salem numbers. These two sets of algebraic numbers are distinguished by some striking arith­ metic properties that account for their appearance in many diverse areas of mathematics: harmonic analysis, ergodic theory, dynamical systems and alge­ braic groups. Until now, the best known and most accessible introduction to these num­ bers has been the beautiful little monograph of Salem, Algebraic Numbers and Fourier Analysis, first published in 1963. Since the publication of Salem's book, however, there has been much progress in the study of these numbers. Pisot had long expressed the desire to publish an up-to-date account of this work, but his death in 1984 left this task unfulfilled.

Inhaltsverzeichnis

Frontmatter
Chapter 1. Rational Series
Abstract
In this chapter we denote by A an integral domain with quotient field K, by A[X] (resp. K[X]) the ring of polynomials in one variable with coefficients in A (resp. K) and by A[[X]] (resp. K[[X]]) the ring of formal power series with coefficients in A (resp. K). A for instance will be the ring Z and K the field Q.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 2. Compact Families of Rational Functions
Abstract
The main aim of this book is to determine closed families of algebraic numbers. We can for instance associate to an algebraic number θ the rational function \(z \in C \to {{P(z)} \over {P*(z)}}\), P being the minimal polynomial of θ and P* the reciprocal polynomial of P. We therefore need to study families of rational functions with coefficients in Z.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 3. Meromorphic Functions on D(0,1). Generalized Schur Algorithm
Abstract
At the beginning of this century, Schur showed by introducing an algorithm defined on C[[z]], that there exist necessary and sufficient conditions for an element of C[[z]] to be the Taylor series at zero of an analytic function bounded by 1 on D(0,1).
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 4. Generalities Concerning Distribution Modulo 1 of Real Sequences
Abstract
The purpose of this chapter is to recall the main results on the distribution modulo 1 of real sequences and to prove some theorems that will prove useful in the following chapters.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 5. Pisot Numbers, Salem Numbers and Distribution Modulo 1
Abstract
This first chapter on Pisot and Salem numbers deals mainly with properties of distribution modulo 1 of certain sequences (λα n ). In particular we will show that Pisot and Salem numbers belong to the exceptional set of Koksma’s theorem. In order to display similarities and differences we will study the two sets together as often as posssible.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 6. Limit Points of Pisot and Salem Sets
Abstract
The purpose of this chapter is to study the limit points of the sets S and T. In particular we will show that S is a closed set and that the closure \({\bar T}\) of T contains U. Even more than in the previous chapter, we will notice that while a great deal is known about the set 5, very little is known about the set T. Thus we still do not know if the only limit points of T are S-numbers.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 7. Small Pisot Numbers
Abstract
Using Schur’s algorithm for generating all Pisot numbers less than or equal to \({{\hat \theta }_{15}} \simeq 1.6183608 \ldots \), we prove that Inf S = θ 0, where ϑ 0 = 1.3247179572... satisfies the equation X 3X − 1 = 0, and that \(Inf S' = (\sqrt 5 + 1)/2\).
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 8. Some Properties and Applications of Pisot Numbers
Abstract
This chapter describes some lesser-known properties of Pisot numbers; Salem numbers appear only in Theorem 8.1.1. By this choice we have sought to demonstrate Pisot numbers’ important role in many questions (applications to harmonic analysis will be given in Chapter 15). Notation is the same as in Chapter 5 (cf. §5.0).
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 9. Algebraic Number Sets
Abstract
In this chapter we extend some properties of Pisot numbers to algebraic number sets and to n-tuples of algebraic integers.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 10. Rational Functions Over Rings of Adeles
Abstract
In Chapter 11 we will discuss various generalizations of Pisot and Salem numbers. We will define sets with properties analogous to those of S and T, such as distribution modulo 1, or topological properties such as the fact that S is closed. The first attempt at generalization was to consider not algebraic integers but algebraic numbers that are zeros of polynomials in Z[X] and whose leading coefficient is a fixed integer q. These sets were discussed in Chapter 9. In fact, generalizing the distribution modulo 1 leads us to consider a more general framework: not the ring of adeles of Q, but certain subrings that provide an appropriate domain for such investigations through the Artin decomposition.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 11. Generalizations of Pisot and Salem Numbers to Adeles
Abstract
Most of the notation used in this chapter was introduced in Chapter 10.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 12. Pisot Elements in a Field of Formal Power Series
Abstract
Suppose k is an arbitrary commutative field; in this chapter we define and study sets of algebraic elements over k[x] analogous to the sets U and S.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 13. Pisot Sequences, Boyd Sequences and Linear Recurrence
Abstract
We first prove two theorems that are very useful for studying the convergence properties of certain rational sequences used in the succeeding sections.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 14. Generalizations of Pisot and Boyd Sequences
Abstract
The purpose of this chapter is to extend some of the results obtained in the previous chapters to sequences of rationals and to sequences of polynomials.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Chapter 15. The Salem-Zygmund Theorem
Abstract
The Salem-Zygmimd theorem, about sets of uniqueness in the theory of trigonometric series, is certainly the result that has given Pisot numbers most of their renown, at least among analysts.
M. J. Bertin, A. Decomps-Guilloux, M. Grandet-Hugot, M. Pathiaux-Delefosse, J. P. Schreiber
Metadaten
Titel
Pisot and Salem Numbers
verfasst von
Dr. M. J. Bertin
Dr. A. Decomps-Guilloux
Prof. M. Grandet-Hugot
Dr. M. Pathiaux-Delefosse
Prof. J. P. Schreiber
Copyright-Jahr
1992
Verlag
Birkhäuser Basel
Electronic ISBN
978-3-0348-8632-1
Print ISBN
978-3-0348-9706-8
DOI
https://doi.org/10.1007/978-3-0348-8632-1