Logarithmic convergence criterion
This category corresponds roughly to MSC {{{id}}} {{{title}}}; see {{{id}}} at MathSciNet and {{{id}}} at zbMATH.
A criterion for the convergence of series $\sum a_n$ of positive real numbers. If there are $\alpha > 0$ and $N$ such that
\begin{equation}\label{e:compare1}
\frac{\ln (a_n)^{-1}}{\ln n} \geq 1 + \alpha \qquad \forall n\geq N
\end{equation}
then the series converges. If there is $N$ such that
\begin{equation}\label{e:compare2}
\frac{\ln (a_n)^{-1}}{\ln n} \leq 1 \qquad \forall n \geq N
\end{equation}
then the series diverges. Indeed \eqref{e:compare1} implies that $\sum_n a_n$ is dominated by $\sum \frac{1}{n^{1+\alpha}}$ (namely that
\[
\left.a_n \leq \frac{1}{n^{1+\alpha}}\right)\, ,
\]
whereas \eqref{e:compare2} implies that $\sum_n a_n$ dominates the harmonic series.
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