Higher correlations of divisor sums related to primes II: variations of the error term in the prime number theorem

We calculate the triple correlations for the truncated divisor sum λR(n). The λR(n) behave over certain averages just as the prime counting von Mangoldt function Λ(n) does or is conjectured to do. We also calculate the mixed (with a factor of Λ(n)) correlations. The results for the moments up to the...

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Vydáno v:Proceedings of the London Mathematical Society Ročník 95; číslo 1; s. 199 - 247
Hlavní autoři: Goldston, D. A., Yildirim, C. Y.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Oxford University Press 01.07.2007
ISSN:0024-6115, 1460-244X
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Shrnutí:We calculate the triple correlations for the truncated divisor sum λR(n). The λR(n) behave over certain averages just as the prime counting von Mangoldt function Λ(n) does or is conjectured to do. We also calculate the mixed (with a factor of Λ(n)) correlations. The results for the moments up to the third degree, and therefore the implications for the distribution of primes in short intervals, are the same as those we obtained (in the first paper with this title) by using the simpler approximation ΛR(n). However, when λR(n) is used, the error in the singular series approximation is often much smaller than what ΛR(n) allows. Assuming the Generalized Riemann Hypothesis (GRH) for Dirichlet L-functions, we obtain an Ω±-result for the variation of the error term in the prime number theorem. Formerly, our knowledge under GRH was restricted to Ω-results for the absolute value of this variation. An important ingredient in the last part of this work is a recent result due to Montgomery and Soundararajan which makes it possible for us to dispense with a large error term in the evaluation of a certain singular series average. We believe that our results on the sums λR(n) and ΛR(n) can be employed in diverse problems concerning primes.
Bibliografie:istex:B222091C16D15E745261E401C3F5747782C823B1
ark:/67375/HXZ-8T1BVJCN-0
2000 Mathematics Subject Classification 11N05 (primary), 11P32 (secondary).
ArticleID:pdm010
2000
Mathematics Subject Classification
The research of Goldston was supported by the NSF; that of Yildirim was supported by TÜBİTAK.
11N05 (primary), 11P32 (secondary).
ISSN:0024-6115
1460-244X
DOI:10.1112/plms/pdm010