Approaching Thouless Energy and Griffiths Regime in Random Spin Systems By Singular Value Decomposition

Abstract

We employ singular value decomposition (SVD) to study the eigenvalue spectra of random spin systems. By SVD, eigenvalue spectrum is decomposed into orthonormal modes Wk with weight λk. We show that the scree plot (λk with respect to k) in the ergodic phase contains two branches that both follow power-law λk k-α but with different exponents α. By evaluating Wk, it's verified the part of λk with k>kTh is universal that follows random matrix theory, where kTh is related to the Thouless energy. We further demonstrate that α corresponds only to the exponential part of the level spacing distribution while being insensitive to the level repulsion, or equivalently the system's symmetry. Consequently, α gives an underestimation for the many-body localization transition point, which suggests a non-ergodic behavior that may be attributed to the Griffiths regime.

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