Observed two-dimensional tunnel bifurcations in an external electric field

The controllability problem for two-dimensional dissipative tunneling in the system of tunnel-coupled quantum dots (a quantum molecule), interacting quantum molecules, and the system “ACM/CTM cantilever tip-quantum dot” simulated by a 2D oscillator potential in a heat bath and an external electric f...

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Veröffentlicht in:Moscow University physics bulletin 2009-10, Vol.64 (5), p.475-479, Article 475
Hauptverfasser: Zhukovskii, V. Ch, Dakhnovskii, Yu. I., Gorshkov, O. N., Krevchik, V. D., Semenov, M. B., Smirnov, Yu. G., Chuprunov, E. V., Rudin, V. A., Skibitskaya, N. Yu, Krevchik, P. V., Filatov, D. O., Antonov, D. A., Lapshina, M. A., Yamomoto, K., Shenina, M. E.
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Sprache:eng
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Zusammenfassung:The controllability problem for two-dimensional dissipative tunneling in the system of tunnel-coupled quantum dots (a quantum molecule), interacting quantum molecules, and the system “ACM/CTM cantilever tip-quantum dot” simulated by a 2D oscillator potential in a heat bath and an external electric field is investigated. The obtained results qualitatively correspond to the separate experimental volt-ampere characteristics (VACs) for the system “platinized ACM/CTM cantilever tip-gold quantum dot” obtained at Scientific-Research Physical-Technical Institute with Nizhnii Novgorod State University. The previously-predicted 2D tunnel bifurcations with dissipation for the case of interacting particles tunneling in parallel are found to be experimentally observed and stable.
ISSN:0027-1349
1934-8460
DOI:10.3103/S0027134909050014