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Robin's theorem, primes, and a new elementary reformulation of the Riemann Hypothesis
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23 October 2011
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Abstract
For n>1, let G(n)=\sigma(n)/(n log log n), where \sigma(n) is the sum of the divisors of n. We prove that the Riemann Hypothesis is true if and only if 4 is the only composite number N satisfying G(N) \ge \max(G(N/p),G(aN)), for all prime factors p of N and all multiples aN of N. The proof uses Robin's and Gronwall's theorems on G(n). An alternate proof of one step depends on two properties of superabundant numbers proved using Alaoglu and Erd\H{o}s's results.
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Most cited references4
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Abundant Numbers and the Riemann Hypothesis
Keith Briggs (2006)
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Some asymptotic expressions in the theory of numbers
T. H. Gronwall (1913)
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On highly composite and similar numbers
P Erdös, L. Alaoglu (1944)