The large sieve and its applications: arithmetic geometry, random walks and discrete groups
Among the modern methods used to study prime numbers, the 'sieve' has been one of the most efficient. Originally conceived by Linnik in 1941, the 'large sieve' has developed extensively since the 1960s, with a recent realisation that the underlying principles were capable of appl...
Gespeichert in:
| Beteilige Person: | |
|---|---|
| Format: | E-Book |
| Sprache: | Englisch |
| Veröffentlicht: |
Cambridge
Cambridge University Press
2008
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| Schriftenreihe: | Cambridge tracts in mathematics
175 |
| Links: | https://doi.org/10.1017/CBO9780511542947 |
| Zusammenfassung: | Among the modern methods used to study prime numbers, the 'sieve' has been one of the most efficient. Originally conceived by Linnik in 1941, the 'large sieve' has developed extensively since the 1960s, with a recent realisation that the underlying principles were capable of applications going well beyond prime number theory. This book develops a general form of sieve inequality, and describes its varied applications, including the study of families of zeta functions of algebraic curves over finite fields; arithmetic properties of characteristic polynomials of random unimodular matrices; homological properties of random 3-manifolds; and the average number of primes dividing the denominators of rational points on elliptic curves. Also covered in detail are the tools of harmonic analysis used to implement the forms of the large sieve inequality, including the Riemann Hypothesis over finite fields, and Property (T) or Property (tau) for discrete groups. |
| Umfang: | 1 Online-Ressource (xxi, 293 Seiten) |
| ISBN: | 9780511542947 |
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| spelling | Kowalski, Emmanuel 1969- The large sieve and its applications arithmetic geometry, random walks and discrete groups E. Kowalski The Large Sieve & its Applications Cambridge Cambridge University Press 2008 1 Online-Ressource (xxi, 293 Seiten) txt c cr Cambridge tracts in mathematics 175 Among the modern methods used to study prime numbers, the 'sieve' has been one of the most efficient. Originally conceived by Linnik in 1941, the 'large sieve' has developed extensively since the 1960s, with a recent realisation that the underlying principles were capable of applications going well beyond prime number theory. This book develops a general form of sieve inequality, and describes its varied applications, including the study of families of zeta functions of algebraic curves over finite fields; arithmetic properties of characteristic polynomials of random unimodular matrices; homological properties of random 3-manifolds; and the average number of primes dividing the denominators of rational points on elliptic curves. Also covered in detail are the tools of harmonic analysis used to implement the forms of the large sieve inequality, including the Riemann Hypothesis over finite fields, and Property (T) or Property (tau) for discrete groups. Erscheint auch als Druck-Ausgabe 9780521888516 |
| spellingShingle | Kowalski, Emmanuel 1969- The large sieve and its applications arithmetic geometry, random walks and discrete groups |
| title | The large sieve and its applications arithmetic geometry, random walks and discrete groups |
| title_alt | The Large Sieve & its Applications |
| title_auth | The large sieve and its applications arithmetic geometry, random walks and discrete groups |
| title_exact_search | The large sieve and its applications arithmetic geometry, random walks and discrete groups |
| title_full | The large sieve and its applications arithmetic geometry, random walks and discrete groups E. Kowalski |
| title_fullStr | The large sieve and its applications arithmetic geometry, random walks and discrete groups E. Kowalski |
| title_full_unstemmed | The large sieve and its applications arithmetic geometry, random walks and discrete groups E. Kowalski |
| title_short | The large sieve and its applications |
| title_sort | large sieve and its applications arithmetic geometry random walks and discrete groups |
| title_sub | arithmetic geometry, random walks and discrete groups |
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