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Dynamical scaling for critical states: is Chalker's ansatz valid for strong fractality?

The dynamical scaling for statistics of critical multifractal eigenstates proposed by Chalker is analytically verified for the critical random matrix ensemble in the limit of strong multifractality controlled by the small parameter $b\ll 1$. The power law behavior of the quantum return probability $P_{N}(τ)$ as a function of the matrix size $N$ or time $τ$ is confirmed in the limits $τ/N\rightarrow\infty$ and $N/τ\rightarrow\infty$, respectively, and it is shown that the exponents characterizing these power laws are equal to each other up to the order $b^{2}$. The corresponding analytical expression for the fractal dimension $d_{2}$ is found.

preprint2010arXivOpen access
V. E. KravtsovA. OssipovO. M. YevtushenkoE. Cuevas
cond-mat.stat-mechmath-phmath.MPcond-mat.dis-nn
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V. E. KravtsovA. OssipovO. M. YevtushenkoE. Cuevas

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