Difference between revisions of "Titchmarsh problem"
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The problem of finding an asymptotic expression for | The problem of finding an asymptotic expression for | ||
− | + | $$ \tag{1 } | |
+ | Q ( n) = \ | ||
+ | \sum _ {p \leq n } | ||
+ | \tau ( p - l), | ||
+ | $$ | ||
− | where | + | where $ \tau ( m) $ |
+ | is the number of divisors of $ m $( | ||
+ | cf. [[Divisor problems|Divisor problems]]), $ l $ | ||
+ | is a fixed non-zero number and $ p $ | ||
+ | runs through all prime numbers. Analogous to this problem is the problem of finding an asymptotic expression for | ||
− | + | $$ \tag{2 } | |
+ | S ( n) = \ | ||
+ | \sum _ {p \leq n - 1 } | ||
+ | \tau ( n - p). | ||
+ | $$ | ||
This problem was posed by E. Titchmarsh (1930) and was solved by him [[#References|[1]]] under the assumption that the Riemann hypothesis is true (cf. [[Riemann hypotheses|Riemann hypotheses]]). | This problem was posed by E. Titchmarsh (1930) and was solved by him [[#References|[1]]] under the assumption that the Riemann hypothesis is true (cf. [[Riemann hypotheses|Riemann hypotheses]]). | ||
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The [[Dispersion method|dispersion method]], developed by Yu.V. Linnik, allows one to find asymptotics for (1) and (2): | The [[Dispersion method|dispersion method]], developed by Yu.V. Linnik, allows one to find asymptotics for (1) and (2): | ||
− | + | $$ | |
+ | Q ( n) = \ | ||
+ | |||
+ | \frac{315 \zeta ( 3) }{2 \pi ^ {4} } | ||
+ | |||
+ | \prod _ {p \mid l } | ||
+ | |||
+ | \frac{( p - 1) ^ {2} }{p ^ {2} - p + 1 } | ||
+ | |||
+ | n + O ( n ( \mathop{\rm ln} n) ^ {- 1 + \epsilon } ); | ||
+ | $$ | ||
− | the formula for | + | the formula for $ S ( n) $ |
+ | is analogous. | ||
The Vinogradov–Bombieri theorem on the average [[Distribution of prime numbers|distribution of prime numbers]] in arithmetic progressions also leads to a solution of the Titchmarsh problem. Here the assumption of the truth of the Riemann hypothesis is actually replaced by theorems of the [[Large sieve|large sieve]] type. | The Vinogradov–Bombieri theorem on the average [[Distribution of prime numbers|distribution of prime numbers]] in arithmetic progressions also leads to a solution of the Titchmarsh problem. Here the assumption of the truth of the Riemann hypothesis is actually replaced by theorems of the [[Large sieve|large sieve]] type. |
Revision as of 08:25, 6 June 2020
The problem of finding an asymptotic expression for
$$ \tag{1 } Q ( n) = \ \sum _ {p \leq n } \tau ( p - l), $$
where $ \tau ( m) $ is the number of divisors of $ m $( cf. Divisor problems), $ l $ is a fixed non-zero number and $ p $ runs through all prime numbers. Analogous to this problem is the problem of finding an asymptotic expression for
$$ \tag{2 } S ( n) = \ \sum _ {p \leq n - 1 } \tau ( n - p). $$
This problem was posed by E. Titchmarsh (1930) and was solved by him [1] under the assumption that the Riemann hypothesis is true (cf. Riemann hypotheses).
The dispersion method, developed by Yu.V. Linnik, allows one to find asymptotics for (1) and (2):
$$ Q ( n) = \ \frac{315 \zeta ( 3) }{2 \pi ^ {4} } \prod _ {p \mid l } \frac{( p - 1) ^ {2} }{p ^ {2} - p + 1 } n + O ( n ( \mathop{\rm ln} n) ^ {- 1 + \epsilon } ); $$
the formula for $ S ( n) $ is analogous.
The Vinogradov–Bombieri theorem on the average distribution of prime numbers in arithmetic progressions also leads to a solution of the Titchmarsh problem. Here the assumption of the truth of the Riemann hypothesis is actually replaced by theorems of the large sieve type.
References
[1] | Yu.V. Linnik, "The dispersion method in binary additive problems" , Amer. Math. Soc. (1963) (Translated from Russian) |
[2] | B.M. Bredikhin, "The dispersion method and binary additive problems" Russian Math. Surveys , 20 : 2 (1965) pp. 85–125 Uspekhi Mat. Nauk , 20 : 2 (1965) pp. 89–130 |
[3] | K. Prachar, "Primzahlverteilung" , Springer (1957) |
Titchmarsh problem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Titchmarsh_problem&oldid=48979