Can a multiperfect number be a perfect power?

Question

(Note: The following post is an offshoot of this earlier MSE question: Can a multiperfect number be a perfect square?.)

Let $\sigma(x)$ denote the classical sum of divisors of the positive integer $x$.

A number $m$ satisfying $$\sigma(m)=2m$$ is said to be perfect.

More generally, we call any number $n$ satisfying $$\sigma(n)=kn$$ for $k \in \mathbb{N}$ to be multiperfect (or $k$-perfect).

It is known that multiperfect numbers cannot be squares.

Furthermore, it is also known that perfect numbers cannot be perfect powers.

I found a reference to the last statement in Walter Nissen's Concise, remarkable facts about perfect numbers:

---
Perfect Naturals
are not
Perfect Powers ( e.g. , perfect squares , perfect cubes , etc. )

Here is my question:

Can a multiperfect number be a perfect power?

Update (August 9, 2020 - 12:04 PM Manila time) I have posted a closely related question in MO here.

Answer 1

I checked all the multiperfect numbers from this site, which include all the multiperfect numbers in the b-file of A007691, as well as additional ones. The largest number that was in the list was $\approx 10^{34850339}$. None of those values were perfect powers.

What I did find for all multiperfect numbers is that there was at least one prime factor with an exponent of exactly $1$ in the prime factorization. If this could be proved for all multiperfect numbers, then the conjecture that there is no number that is both multiperfect and a perfect power could be proven.