A reciprocity theorem for the Cohen-Ramanujan sums and its application to Cohen-Ramanujan expansions in the second variable
Abstract
For an arithmetical function f, its Ramanujan expansion is a series expansion in the form f(n)=Σk=1∞a(k) ck(n) where a(k) are complex numbers and ck(n):= Σm=1\\(m, k)=1ke2π imnk is the Ramanujan sum. Here we prove a reciprocity result on Cohen-Ramanujan sums cks(n) :=Σh=1\\(h,ks)s=1kse2π i n hks to change the position of k and n in a twisted function and use it to prove that for certain arithmetical functions f, Cohen-Ramanujan series expansions in the form Σk=1∞a(k) ck(s)(n) exist if and only if expansions in the form Σk=1∞b(k/n) cn(s)(k) exist.
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