Let say m is dimension $\exists$ $f(x)$ $f$ is density function and
\begin{equation*} f(x) = \frac{c(m,a,b)}{\|x\|^a\left(\log\frac{e}{\|x\|}\right)^{b}}\mathbf{1}_{\|x\|\leq 1} \geq 0 \end{equation*} where $a$ and $b$ depend on $m$ dimension and also we know the density function is \begin{equation*} \int_{\mathbb{R}^m}f(x)dx = 1. \end{equation*} Let \begin{equation*} c_0 = \frac{1}{\int_{\|x\|\leq 1}\|x\|^a\left(\log\frac{e}{\|x\|}\right)^{b}dx} \end{equation*} Suppose that $\rho = \|x\| $, then we have \begin{equation*} c= \frac{2\pi^{m/2}}{\Gamma(m/2)}\int_0^1\rho^{m-1}\rho^{-a}\left(\log\frac{e}{\rho}\right)^{-b}\,d\rho. \end{equation*} So, my question is how do we know limit of $c$ exist or not. Thanks a lot in advance
Note: $\mathbf{1}$ is indicator
