(a,a)-Carmichael numbers and greatest common divisors of p-a

Abstract

Define an (a,a)-Carmichael number to be a squarefree natural number n such that p n implies p-a n-a. For such a number n with prime factors p1,·s,pm, define K=GCD[p1-a,·s,pm-a], and let Cν(X,a) denote the number of (a,a)-Carmichael numbers up to X such that K=ν. Assuming a strong conjecture on the first prime in an arithmetic progression, we prove that for any integer a and for any natural number ν with (ν,a)=1 and a and ν having opposite parity, Cν(X,a)≥ X1-(2+o(1)) X X. This is a departure from many traditional constructions of Carmichael numbers, which generally require K to grow along with n.

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