Publications of Paul Erdos

Zentralblatt MATH

Publications of (and about) Paul Erdös

Zbl.No: 419.10042
Autor: Alladi, K.; Erdös, Paul
Title: On the asymptotic behavior of large prime factors of integers. (In English)
Source: Pac. J. Math. 82, 295-315 (1979).
Review: The paper under review continues the work of Hardy and Ramanujan on round numbers and related topics. The authors study the functions p₁(n), p₂(n)... defined as the biggest prime factor of n, and the next smaller prime factor and so on. More precisely let n = prod_{i = 1}^rp_i^\alpha_i where p₁ > p₂ > ... and \alpha_i > 0. A(n) = \Sigma\alpha₁, A^*(n) = \Sigma p_i, Omega(n) = \Sigma\alpha₁, \omega(n) = r, P₁(n) = P₁^*(n) = p₁, P_k^*(n) = p_k for k \leq \omega(n) and zero for k > \omega(n), P_k(n) = P₁(\frac n{P₁(n)P₂(n)... P_k-1(n)}) for 1 < k \leq \Omega(n) and zero for k > \Omega(n). The functions \Omega(n) and \omega(n) were studied by Hardy and Ramanujan who proved that their normal order is log log n. The authors make a comparative study of A(n), A^*(n), P_k(n) and P_k^*(n). With this in view they introduce

S₁(x,k) = sum_{2 \leq n \leq x} \frac{A(n)-P₁(n)- ... -P_k-1(n)}{P₁(n)}, S₂(x,k) = sum_{2 \leq n \leq x}\frac{A^*(n)-P₁^*(n)-...-P_k-1^*(n)}{P₁(n)},

S₃(x,k) = sum_{2 \leq n \leq x} \frac{P_k(n)}{P₁(n)}, and S₄(k,x) = sum_{2 \leq n \leq x} \frac{P_k^*(n)}{P₁(n)},

where k \geq 1 is any fixed positive integer. In anearlier paper they proved that as x ––> oo,

sum_{1 \leq n \leq x}(A(n)-P₁(n)-...-P_k-1(n)) ~ sum_{1 \leq n \leq x}P_k(n) ~ sum_{1 \leq n \leq x}\P_k^*(n) ~ sum_{1 \leq n \leq x}(A^*(n)-P₁^*(n)-...-\P_k-1^*(n)) ~ a_k(log x)^-kx^1+1/k,

where a_k is a positive constant depending on k. They also proved

sum_{1 \leq n \leq x}(A(n)-A^*(n)) = x log log x+0(x).

To these they add another set of interesting results. Namely that as x ––> oo,

S₁(x,k) ~ S₂(x,k) ~ S₃(x,k) ~ S₄(x,k) ~ a_k'(log x)^1-kx,

where a_k' is a positive constant depending only on k. These results give satisfactory information of the asymptotic behaviour (i.e. average order, normal order etc.) of the functions which they consider. For instance it is somewhat surprising that A(n), A^*(n), P₁(n) are almost always nearly of the same order. But none of them possess a normal order. The last mentioned result is deduced from the results mentioned above by appealing to a result of P.D.T.A.Elliott.
Reviewer: K.Ramachandra
Classif.: * 11N37 Asymptotic results on arithmetic functions
11N05 Distribution of primes
Keywords: Hardy-Ramanujan theorem; round numbers; large prime factors; average order; normal order

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