Difference between revisions of "Selberg sieve"
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− | + | {{TEX|done}} | |
− | + | {{MSC|11N35}} | |
− | + | ''Selberg method'' | |
− | + | A special, and at the same time fairly universal, [[sieve method]] created by A. Selberg [[#References|[1]]]. The Selberg sieve enables one to obtain a good upper bound of the sifting function $S(A;P,z)$, which denotes the number of elements of a set $A$ of integers that are not divisible by prime numbers $p < z$ and that belong to a certain set $P$ of prime numbers. | |
− | which holds | + | Let $P(z) = \prod_{p<z\,;\,p \in P} p$. The Selberg method is based on the obvious inequality |
+ | $$ | ||
+ | \begin{equation}\label{e:1} | ||
+ | S(A;P,z) \le \sum_{a \in A} \left({ \sum_{d | a\,;\,d | P(z)} \lambda_d }\right)^2 | ||
+ | \end{equation} | ||
+ | $$ | ||
+ | which holds for $\lambda_1 = 1$ and arbitrary real numbers $\lambda_d$ ($d \ge 2$). Selberg's idea consists of the following: Set $\lambda_d = 0$ for $d \ge z$, and minimize the right-hand side of \ref{e:1} by a suitable choice of the remaining numbers $\lambda_d$ ($2 \le d < z$). | ||
When combined with other sieve methods, the Selberg sieve enables one to obtain lower bounds that are particularly powerful when used with weight functions. | When combined with other sieve methods, the Selberg sieve enables one to obtain lower bounds that are particularly powerful when used with weight functions. | ||
====References==== | ====References==== | ||
− | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> A. Selberg, "On an elementary method in the theory of primes" ''Norsk. Vid. Selsk. Forh.'' , '''19''' : 18 (1947) pp. 64–67</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> K. Prachar, "Primzahlverteilung" , Springer (1957)</TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top"> H. Halberstam, H.-E. Richert, "Sieve methods" , | + | <table> |
+ | <TR><TD valign="top">[1]</TD> <TD valign="top"> A. Selberg, "On an elementary method in the theory of primes" ''Norsk. Vid. Selsk. Forh.'' , '''19''' : 18 (1947) pp. 64–67 {{ZBL|0041.01903}}</TD></TR> | ||
+ | <TR><TD valign="top">[2]</TD> <TD valign="top"> K. Prachar, "Primzahlverteilung", Die Grundlehren der Mathematischen Wissenschaften '''91''', Springer (1957) {{ZBL|0080.25901}}</TD></TR> | ||
+ | <TR><TD valign="top">[3]</TD> <TD valign="top"> H. Halberstam, H.-E. Richert, "Sieve methods", London Mathematical Society Monographs '''4''', Academic Press (1974) {{ZBL|0298.10026}}</TD></TR> | ||
+ | </table> |
Latest revision as of 19:56, 21 November 2014
2020 Mathematics Subject Classification: Primary: 11N35 [MSN][ZBL]
Selberg method
A special, and at the same time fairly universal, sieve method created by A. Selberg [1]. The Selberg sieve enables one to obtain a good upper bound of the sifting function $S(A;P,z)$, which denotes the number of elements of a set $A$ of integers that are not divisible by prime numbers $p < z$ and that belong to a certain set $P$ of prime numbers.
Let $P(z) = \prod_{p<z\,;\,p \in P} p$. The Selberg method is based on the obvious inequality $$ \begin{equation}\label{e:1} S(A;P,z) \le \sum_{a \in A} \left({ \sum_{d | a\,;\,d | P(z)} \lambda_d }\right)^2 \end{equation} $$ which holds for $\lambda_1 = 1$ and arbitrary real numbers $\lambda_d$ ($d \ge 2$). Selberg's idea consists of the following: Set $\lambda_d = 0$ for $d \ge z$, and minimize the right-hand side of \ref{e:1} by a suitable choice of the remaining numbers $\lambda_d$ ($2 \le d < z$).
When combined with other sieve methods, the Selberg sieve enables one to obtain lower bounds that are particularly powerful when used with weight functions.
References
[1] | A. Selberg, "On an elementary method in the theory of primes" Norsk. Vid. Selsk. Forh. , 19 : 18 (1947) pp. 64–67 Zbl 0041.01903 |
[2] | K. Prachar, "Primzahlverteilung", Die Grundlehren der Mathematischen Wissenschaften 91, Springer (1957) Zbl 0080.25901 |
[3] | H. Halberstam, H.-E. Richert, "Sieve methods", London Mathematical Society Monographs 4, Academic Press (1974) Zbl 0298.10026 |
Selberg sieve. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Selberg_sieve&oldid=11878