I have a random walk $$R(t)= \sum_{n<t} X_n,$$ with $X_n \sim U(-\tfrac{1}{n^\alpha}, \tfrac{1}{n^\alpha}),$ where $X_n$ are independant and $\alpha >0$.

I think that someone must have studied this before. I am interested in understanding the behavior of $R(t)$ for large $t$.

For example can we estimate the probability of $R(t) \in [1, x)$?

Obviously, $E(R(t))=0,$ and $Var(R)= \tfrac{1}{3}\sum_{n<t} \tfrac{1}{n^{2\alpha}}.$

Therefore depends on $\alpha,$ the variance can grow with $t$. Any information regarding the behavior of $R$ is appreciated.