$\newcommand\C{\mathbb C}\newcommand\R{\mathbb R}$Yes, this follows by Loewner's theorem on monotone matrix functions (see e.g. Theorem 1.6), which in particular implies the following:
Let $M_n$ denote the set of all analytic functions $f\colon\C\setminus(-\infty,0]\to\C$ such that $f((0,\infty))\subseteq\R$ and $$A\le B\implies f(A)\le f(B)$$ for all $n\times n$ positive-definite matrices $A$ and $B$, where $A\le B$ means that $B-A$ is positive semidefinite. Then $f\in M_n$ for all natural $n$ iff $$\Im z>0\implies \Im f(z)>0.$$
The above conditions on $f$ hold if $f(z)=z^\alpha$ for $\alpha\in(0,1]$ and all $z\in\C\setminus(-\infty,0]$.
So, your desired result immediately follows.