Electrostatic effects in coupled quantum dot-point contact-single electron transistor devices

S. Pelling; E. Otto; S. Spasov; S Kubatkin; R. Shaikhaidarov; K Ueda; S. Komiyama; V. N.  Antonov

doi:10.1063/1.4736419

Electrostatic effects in coupled quantum dot-point contact-single electron transistor devices

S. Pelling, E. Otto, S. Spasov, S Kubatkin, R. Shaikhaidarov, K Ueda, S. Komiyama, V. N. Antonov

Research output: Contribution to journal › Article › peer-review

Abstract

We study the operation of a system where quantum dot (QD) and point contact (PC) defined in a two-dimensional electron gas of a high-mobility GaAs/AlGaAs heterostructure are capacitively coupled to each other and to metallic single electron transistor (SET). The charge state of the quantum dot can be probed by the point contact or single electron transistor. These can be used for sensitive detection of terahertz radiation. In this work, we explore an electrostatic model of the system. From the model, we determine the sensitivity of the point contact and the single electron transistor to the charge excitation of the quantum dot. Nearly periodic oscillations of the point contact conductance are observed in the vicinity of pinch-off voltage. They can be attributed to Coulomb blockade effect in a quasi-1D channel because of unintentional formation of small quantum dot. The latter can be a result of fluctuations in GaAs quantum well thickness.

Original language	English
Article number	014322
Number of pages	5
Journal	Journal of Applied Physics
Volume	112
Issue number	1
DOIs	https://doi.org/10.1063/1.4736419
Publication status	Published - 12 Jul 2012

Keywords

Terahertz
Quantum Dot

Access to Document

10.1063/1.4736419

Cite this

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title = "Electrostatic effects in coupled quantum dot-point contact-single electron transistor devices",

abstract = "We study the operation of a system where quantum dot (QD) and point contact (PC) defined in a two-dimensional electron gas of a high-mobility GaAs/AlGaAs heterostructure are capacitively coupled to each other and to metallic single electron transistor (SET). The charge state of the quantum dot can be probed by the point contact or single electron transistor. These can be used for sensitive detection of terahertz radiation. In this work, we explore an electrostatic model of the system. From the model, we determine the sensitivity of the point contact and the single electron transistor to the charge excitation of the quantum dot. Nearly periodic oscillations of the point contact conductance are observed in the vicinity of pinch-off voltage. They can be attributed to Coulomb blockade effect in a quasi-1D channel because of unintentional formation of small quantum dot. The latter can be a result of fluctuations in GaAs quantum well thickness.",

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T1 - Electrostatic effects in coupled quantum dot-point contact-single electron transistor devices

AU - Pelling, S.

AU - Otto, E.

AU - Spasov, S.

AU - Kubatkin, S

AU - Shaikhaidarov, R.

AU - Ueda, K

AU - Komiyama, S.

AU - Antonov, V. N.

PY - 2012/7/12

Y1 - 2012/7/12

N2 - We study the operation of a system where quantum dot (QD) and point contact (PC) defined in a two-dimensional electron gas of a high-mobility GaAs/AlGaAs heterostructure are capacitively coupled to each other and to metallic single electron transistor (SET). The charge state of the quantum dot can be probed by the point contact or single electron transistor. These can be used for sensitive detection of terahertz radiation. In this work, we explore an electrostatic model of the system. From the model, we determine the sensitivity of the point contact and the single electron transistor to the charge excitation of the quantum dot. Nearly periodic oscillations of the point contact conductance are observed in the vicinity of pinch-off voltage. They can be attributed to Coulomb blockade effect in a quasi-1D channel because of unintentional formation of small quantum dot. The latter can be a result of fluctuations in GaAs quantum well thickness.

AB - We study the operation of a system where quantum dot (QD) and point contact (PC) defined in a two-dimensional electron gas of a high-mobility GaAs/AlGaAs heterostructure are capacitively coupled to each other and to metallic single electron transistor (SET). The charge state of the quantum dot can be probed by the point contact or single electron transistor. These can be used for sensitive detection of terahertz radiation. In this work, we explore an electrostatic model of the system. From the model, we determine the sensitivity of the point contact and the single electron transistor to the charge excitation of the quantum dot. Nearly periodic oscillations of the point contact conductance are observed in the vicinity of pinch-off voltage. They can be attributed to Coulomb blockade effect in a quasi-1D channel because of unintentional formation of small quantum dot. The latter can be a result of fluctuations in GaAs quantum well thickness.

KW - Terahertz

KW - Quantum Dot

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DO - 10.1063/1.4736419

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