6533b82ffe1ef96bd1295235

RESEARCH PRODUCT

Shape analysis of the level-spacing distribution around the metal-insulator transition in the three-dimensional Anderson model

E. HofstetterImre VargaJános PipekMichael Schreiber

subject

PhysicsPhase transitionDistribution functionCondensed matter physicsCondensed Matter (cond-mat)FOS: Physical sciencesCondensed MatterLevel-spacing distributionMetal–insulator transitionCritical exponentAnderson impurity modelShape analysis (digital geometry)

description

We present a new method for the numerical treatment of second order phase transitions using the level spacing distribution function $P(s)$. We show that the quantities introduced originally for the shape analysis of eigenvectors can be properly applied for the description of the eigenvalues as well. The position of the metal--insulator transition (MIT) of the three dimensional Anderson model and the critical exponent are evaluated. The shape analysis of $P(s)$ obtained numerically shows that near the MIT $P(s)$ is clearly different from both the Brody distribution and from Izrailev's formula, and the best description is of the form $P(s)=c_1\,s\exp(-c_2\,s^{1+\beta})$, with $\beta\approx 0.2$. This is in good agreement with recent analytical results.

yearjournalcountryeditionlanguage
1995-09-15Physical Review B
https://doi.org/10.1103/physrevb.52.7783