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Type: Article
On the largest prime factor of the partition function of n
Abstract:
Let p(n) be the function that counts the number of partitions of n. For a positive integer m, let P(m) be the largest prime factor of m. Here, we show that P(p(n)) tends to infinity when n tends to infinity through some set of asymptotic density 1. In fact, we show that the inequality P(p(n))> loglogloglogloglogn holds for almost all positive integers n. Features of the proof are the first term in Rademacher's formula for p(n), Gowers' effective version of Szemer,di's theorem, and a classical lower bound for a nonzero homogeneous linear form in logarithms of algebraic numbers due to Matveev.
Let p(n) be the function that counts the number of partitions of n. For a positive integer m, let P(m) be the largest prime factor of m. Here, we show that P(p(n)) tends to infinity when n tends to infinity through some set of asymptotic density 1. In fact, we show that the inequality P(p(n))> loglogloglogloglogn holds for almost all positive integers n. Features of the proof are the first term in Rademacher's formula for p(n), Gowers' effective version of Szemer,di's theorem, and a classical lower bound for a nonzero homogeneous linear form in logarithms of algebraic numbers due to Matveev.
Keywords: Partition function; Largest prime factor
Journal: Ramanujan Journal
ISSN: 1572-9303
Year: 2012
Volume: 28
Number: 3
Pages: 423-434
Created: 2013-01-25 11:30:23
Modified: 2014-02-13 11:47:24
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