D. V. Savin, H. -J. Sommers, W. Wieczorek
Published 2007-11-12Version 1
In the framework of the random matrix approach, we apply the theory of Selberg's integral to problems of quantum transport in chaotic cavities. All the moments of transmission eigenvalues are calculated analytically up to the fourth order. As a result, we derive exact explicit expressions for the skewness and kurtosis of the conductance and transmitted charge as well as for the variance of the shot-noise power in chaotic cavities. The obtained results are generally valid at arbitrary numbers of propagating channels in the two attached leads. In the particular limit of large (and equal) channel numbers, the shot-noise variance attends the universal value 1/(64\beta) that determines a universal Gaussian statistics of shot-noise fluctuations in this case.
Comments: 4 pages, 1 figure
Journal: Phys. Rev. B 77, 125332 (2008)
Integrable theory of quantum transport in chaotic cavities
Systematic approach to statistics of conductance and shot-noise in chaotic cavities
Semiclassical approach to the ac-conductance of chaotic cavities
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