A problem involving integers all of whose prime divisors belong to given arithmetic progressions

Fix an integer k>2 and r distinct natural numbers l sub(1),...l sub(r)coprime with k and not exceeding k, and assume that r<[phi](k), where [phi](k) is the Euler function. Let M be the set of positive integers such that each prime divisor of each of them is congruent to one of the integers l s...

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Bibliographic Details
Published inRussian mathematical surveys Vol. 71; no. 4; pp. 790 - 792
Main Author Changa, M. E.
Format Journal Article
LanguageEnglish
Published London Mathematical Society, Turpion Ltd and the Russian Academy of Sciences 01.01.2016
Subjects
Arithmetic
Asymptotic methods
Encounters
Formulas (mathematics)
Functions (mathematics)
Integers
Mathematical analysis
Progressions
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ISSN0036-0279
1468-4829
DOI10.1070/RM9700

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Summary:Fix an integer k>2 and r distinct natural numbers l sub(1),...l sub(r)coprime with k and not exceeding k, and assume that r<[phi](k), where [phi](k) is the Euler function. Let M be the set of positive integers such that each prime divisor of each of them is congruent to one of the integers l sub(i)modulo k. For the number of integers in M that do not exceed a given number x, Landau ([1], p. 668) found an asymptotic formula whose leading term has order x(ln x) super()r[phi](k)-1 By using the method of complex integration one can also find asymptotic formulae for the sums of the values of multiplicative functions over the integers in M that do not exceed a given number x. In such problems we often encounter a peculiar phenomenon: the sum of the values of a function over the integers in M can be significantly greater than the analogous sum over the integers subject to no restriction on their prime divisors.
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ISSN:0036-0279
1468-4829
DOI:10.1070/RM9700