Difference between revisions of "Lindelöf hypothesis"
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| − | ''Lindelöf conjecture, on the behaviour of the Riemann | + | {{TEX|done}} |
| + | ''Lindelöf conjecture, on the behaviour of the Riemann $\zeta$-function'' | ||
| − | For any | + | For any $\epsilon>0$, |
| − | + | $$\varlimsup_{t\to\infty}\frac{|\zeta(1/2+it)|}{t^\epsilon}=0.$$ | |
| − | It was stated by E. Lindelöf [[#References|[1]]]. The Lindelöf conjecture is equivalent to the assertion that for a fixed | + | It was stated by E. Lindelöf [[#References|[1]]]. The Lindelöf conjecture is equivalent to the assertion that for a fixed $\sigma\in(1/2,1)$ the number of zeros of $\zeta(s)$ that lie in the domain $\operatorname{Re}s>\sigma,T<\operatorname{Im}s<T+1$ is $o(\ln T)$. The Lindelöf conjecture is therefore a consequence of the Riemann conjecture on the zeros of $\zeta(s)$ (cf. [[Riemann hypotheses|Riemann hypotheses]]). It is known (1982) that |
| − | + | $$\varlimsup_{t\to\infty}\frac{|\zeta(1/2+it)|}{t^c}=0,$$ | |
| − | where | + | where $c$ is a constant such that $0<c<6/37$. |
| − | There is a generalization of the Lindelöf conjecture to Dirichlet | + | There is a generalization of the Lindelöf conjecture to Dirichlet $L$-functions: For any $\epsilon>0$, |
| − | + | $$L\left(\frac12+t,\chi\right)=O((k|t|+1)^\epsilon),$$ | |
| − | where | + | where $k$ is the modulus of the character $\chi$. |
====References==== | ====References==== | ||
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====Comments==== | ====Comments==== | ||
| − | + | The first reference of Voronin's article is false; nothing on the Lindelöf hypothesis is in "Le calcul des résidus et ses applications à la théorie des fonctions". And this is obvious: Lindelöf 's book publish date is 1905, and the Lindelöf 's artticle on the hypothesis is "Quelques remarques sur la croissance de la fonction zêta(s)", Bull. des sciences mathématiques, série 2, vol. 32, 1908. Claude Henri Picard | |
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> A. Ivic, "The Riemann zeta-function" , Wiley (1985)</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> A. Ivic, "The Riemann zeta-function" , Wiley (1985)</TD></TR></table> | ||
Latest revision as of 18:59, 7 December 2014
Lindelöf conjecture, on the behaviour of the Riemann $\zeta$-function
For any $\epsilon>0$,
$$\varlimsup_{t\to\infty}\frac{|\zeta(1/2+it)|}{t^\epsilon}=0.$$
It was stated by E. Lindelöf [1]. The Lindelöf conjecture is equivalent to the assertion that for a fixed $\sigma\in(1/2,1)$ the number of zeros of $\zeta(s)$ that lie in the domain $\operatorname{Re}s>\sigma,T<\operatorname{Im}s<T+1$ is $o(\ln T)$. The Lindelöf conjecture is therefore a consequence of the Riemann conjecture on the zeros of $\zeta(s)$ (cf. Riemann hypotheses). It is known (1982) that
$$\varlimsup_{t\to\infty}\frac{|\zeta(1/2+it)|}{t^c}=0,$$
where $c$ is a constant such that $0<c<6/37$.
There is a generalization of the Lindelöf conjecture to Dirichlet $L$-functions: For any $\epsilon>0$,
$$L\left(\frac12+t,\chi\right)=O((k|t|+1)^\epsilon),$$
where $k$ is the modulus of the character $\chi$.
References
| [1] | E. Lindelöf, "Le calcul des résidus et ses applications à la théorie des fonctions" , Gauthier-Villars (1905) |
| [2] | E.C. Titchmarsh, "The theory of the Riemann zeta-function" , Oxford Univ. Press (1951) pp. Chapt. 13 |
Comments
The first reference of Voronin's article is false; nothing on the Lindelöf hypothesis is in "Le calcul des résidus et ses applications à la théorie des fonctions". And this is obvious: Lindelöf 's book publish date is 1905, and the Lindelöf 's artticle on the hypothesis is "Quelques remarques sur la croissance de la fonction zêta(s)", Bull. des sciences mathématiques, série 2, vol. 32, 1908. Claude Henri Picard
References
| [a1] | A. Ivic, "The Riemann zeta-function" , Wiley (1985) |
How to Cite This Entry:
Lindelöf hypothesis. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lindel%C3%B6f_hypothesis&oldid=23388
Lindelöf hypothesis. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lindel%C3%B6f_hypothesis&oldid=23388
This article was adapted from an original article by S.M. Voronin (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article