Some asymptotic formulae involving Cohen-Ramanujan expansions
Cohen-Ramanujan sum, denoted by $c_r^s(n)$, is an exponential sum similar to the Ramanujan sum $c_r(n):=\sum\limits_{\substack{h=1\\{(h,r)=1}}}^{r}e^{\frac{2\pi i n h}{r}}$. An arithmetical function $f$ is said to admit a Cohen-Ramanujan expansion $ f(n):=\sum\limits_{r}\widehat{f}(r)c_r^s(n)$ if th...
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| Zusammenfassung: | Cohen-Ramanujan sum, denoted by $c_r^s(n)$, is an exponential sum similar to
the Ramanujan sum
$c_r(n):=\sum\limits_{\substack{h=1\\{(h,r)=1}}}^{r}e^{\frac{2\pi i n h}{r}}$.
An arithmetical function $f$ is said to admit a Cohen-Ramanujan expansion
$ f(n):=\sum\limits_{r}\widehat{f}(r)c_r^s(n)$ if the series on the right
hand side converges for suitable complex numbers $\widehat{f}(r)$. Given two
arithmetical functions $f$ and $g$ with absolutely convergent Cohen-Ramanujan
expansions, we derive an asymptotic formula for the sum
$\sum\limits_{\substack{n\leq N}}f(n)g(n+h)$ where $h$ is a fixed non negative
integer. We also provide Cohen-Ramanujan expansions for certain functions to
illustrate some of the results we prove consequently. |
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| DOI: | 10.48550/arxiv.2411.11890 |