Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2010-01-15
Physics
Condensed Matter
Statistical Mechanics
This paper has been withdrawn by the authors because more accurate results have been obtained, which is shown in arXiv:1006.11
Scientific paper
Recently we introduced a family of U(N) invariant random matrix ensembles which is a one-paramter ($\lambda$) extension of the q-random matrix ensembles (RMEs), given by the asymptotic weak confining potential $V(H) \sim [\ln H]^{(1+\lambda)}$ \cite{cm-jpa09}. With numerical construction of the corresponding orthogonal polynomials, we showed that the eigenvalue density of the ensembles deviates from the inverse power law and that the two-level kernel of the ensembles is qualitatively different from those of Gaussian and the critical ensembles. In this work, we make further efforts to characterize the two-level kernel of the $\lambda$-ensembles and discuss its various properties. To this end, we first show that the kernel of the $\lambda$-ensembles also possess an anomalous structure characteristic of the critical ensembles, namely the ghost correlation peak. We then propose, albeit in a restricted regime, a form of the two-level kernel which is distinct from the sine kernel of the Gaussian ensembles as well as the sinh kernel of the critical ensembles. We test the proposed form numerically and discuss its implications. In particular, we show that the case $\lambda > 1$ is qualitatively distinct from the case $\lambda <1$, the latter decribing true fat-tail ensembles.
Choi Jinmyung
Muttalib Khandker A.
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