Abstract
For a large Gaussian matrix, we compute the joint statistics, including large deviation tails, of generalized and total variance—the scaled log-determinant H and trace T of the corresponding covariance matrix. Using a Coulomb gas technique, we find that the Laplace transform of their joint distribution decays for large n, m (with fixed) as , where β is the Dyson index of the ensemble and J(s, w) is a β-independent large deviation function, which we compute exactly for any c. The corresponding large deviation functions in real space are worked out and checked with extensive numerical simulations. The results are complemented with a finite n, m treatment based on the Laguerre–Selberg integral. The statistics of atypically small log-determinants is shown to be driven by the split-off of the smallest eigenvalue, leading to an abrupt change in the large deviation speed.
Highlights
Spread measure, to obtain a more revealing indicator
What is the probability of this rare event? Here we provide a solution to this problem, computing the joint statistics of total and generalized variance for a large Gaussian dataset
The derivation of these results relies on techniques borrowed from statistical mechanics and random matrix theory (RMT)
Summary
We would be tempted to reject the test hypothesis outright This might lead to a misjudgment, as atypical values of L for the null model can (and do) occur ( just very rarely). We provide a solution to this problem, computing the joint statistics of total and generalized variance for a large Gaussian dataset The derivation of these results relies on techniques borrowed from statistical mechanics and random matrix theory (RMT). We express the large deviation functions of spread indicators as excess free energies of an associated 2D Coulomb gas, whose thermodynamic limit is analyzed in the mean-field approximation valid for n, m → ∞ with m/n > 1 fixed This approach is complemented with a finite n, m analysis based on the ‘Laguerre’ version of the celebrated Selberg integral.
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