Role of Displacement Current in Quantum-Dot Turnstile Devices
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概要
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The dynamics of the current and the electron number in quantum-dot turnstile devices, in which the heights of the tunneling barriers are modulated by external rf signals, is studied theoretically within the adiabatic approximation. The displacement current is more accurately quantized than the tunneling currents flowing through both the left and the right barriers, since the leakage current is compensated. We find numerically that an electron tunnels through the barrier before its height reaches the minimum value. The tunneling phases of rf signals, at which an electron can actually tunnel, change as the amplitude of rf signals and the barrier height and width are varied. We also discuss the conditions for the current quantization. The dc I-V curve which we obtain shows a plateau at each quantized current ne f with width e^2/C+ΔE and sharp steps between neighboring plateaus. Whenever the dc current is quantized, the change of the number of electrons in the quantum dot during one half-period of rf signal is an integer.
- 社団法人応用物理学会の論文
- 1995-08-30
著者
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HATANO Tsuyoshi
Research Center for Nanodevices and Systems, Hiroshima University
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Fujimoto Kazuya
Department Of Chemistry Faculty Of Science Toyama University
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Isawa Yoshimasa
Department Of Physical Electronics Faculty Of Engineering Hiroshima University
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HATANO Tuyoshi
Department of Physical Electronics, Faculty of Engineering Hiroshima University
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Hatano Tuyoshi
Department Of Physical Electronics Faculty Of Engineering Hiroshima University
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FUJIMOTO Kazuya
Department of Physical Electronics, Faculty of Engineering Hiroshima University
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ISAWA Yoshimasa
Department of Physical Electronics, Faculty of Engineering Hiroshima University
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