1203.3285 (I. L. Drichko et al.)

Monday, March 19, 2012

1203.3285 (I. L. Drichko et al.)

Nonlinear high-frequency hopping conduction in two-dimensional arrays of
Ge-in-Si quantum dots: Acoustic methods [PDF]

I. L. Drichko, A. M. Diakonov, V. A. Malysh, I. Yu. Smirnov, E. S. Koptev, A. I. Nikiforov, N. P. Stepina, Y. M. Galperin, J. Bergli

Using acoustic methods we have measured nonlinear AC conductance in 2D arrays of Ge-in-Si quantum dots. The combination of experimental results and modeling of AC conductance of a dense lattice of localized states leads us to the conclusion that the main mechanism of AC conduction in hopping systems with large localization length is due to the charge transfer within large clusters, while the main mechanism behind its non-Ohmic behavior is charge heating by absorbed power.

View original: http://arxiv.org/abs/1203.3285

cond-mat.mes-hall - Mesoscale and Nanoscale Physics

Monday, March 19, 2012

1203.3285 (I. L. Drichko et al.)

Nonlinear high-frequency hopping conduction in two-dimensional arrays of
Ge-in-Si quantum dots: Acoustic methods [PDF]

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Monday, March 19, 2012

1203.3285 (I. L. Drichko et al.)

Nonlinear high-frequency hopping conduction in two-dimensional arrays of Ge-in-Si quantum dots: Acoustic methods [PDF]

No comments:

Post a Comment

Total Pageviews (last 30 days)

Nonlinear high-frequency hopping conduction in two-dimensional arrays of
Ge-in-Si quantum dots: Acoustic methods [PDF]