Let $W_n$ be an $n\times n$ Wigner matrix$^{1}$, and let $\lambda_1\le \lambda_2\le \cdots \le \lambda_n$ be the eigenvalues of $\frac{W_n}{\sqrt{n}}$. 

> **My question.** For any fixed $i\in\{1,\dots,n\}$, is there any known estimate or bound on 
$$
f(\lambda_1,\dots,\lambda_n):=\prod_{j\ne i}|\lambda_i-\lambda_j| \ \ \ \ \ ?
$$
In particular, I wonder whether $f(\lambda_1,\dots,\lambda_n)^{1/n}$ converges a.s. to a constant for $n\to\infty$ (as suggested by numerical experiments).


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$^{1}$i.e., a random Hermitian matrix whose strictly upper triangular entries are i.i.d. sub-gaussian random variables with mean 0 and variance 1 and whose diagonal entries are independent sub-gaussian random variables with mean 0 and variances bounded by $n^{1−o(1)}$, with the diagonal entries independent of the strictly upper triangular entries.