Spin-related current suppression in a semiconductor quantum dot spin-diode structure

K. Hamaya; M. Kitabatake; K. Shibata; M. Jung; S. Ishida; T. Taniyama; K. Hirakawa; Y. Arakawa; T. MacHida

doi:10.1103/PhysRevLett.102.236806

Spin-related current suppression in a semiconductor quantum dot spin-diode structure

K. Hamaya, M. Kitabatake, K. Shibata, M. Jung, S. Ishida, T. Taniyama, K. Hirakawa, Y. Arakawa, T. MacHida

Division of Nanotechnology

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

41 Scopus citations

Abstract

We experimentally study the transport features of electrons in a spin-diode structure consisting of a single semiconductor quantum dot (QD) weakly coupled to one nonmagnetic and one ferromagnetic (FM) lead, in which the QD has an artificial atomic nature. A Coulomb stability diamond shows asymmetric features with respect to the polarity of the bias voltage. For the regime of two-electron tunneling, we find anomalous suppression of the current for both forward and reverse bias. We discuss possible mechanisms of the anomalous current suppression in terms of spin blockade via the QD-FM interface at the ground state of a two-electron QD.

Original language	English
Article number	236806
Journal	Physical Review Letters
Volume	102
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.102.236806
State	Published - 12 Jun 2009

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10.1103/PhysRevLett.102.236806

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abstract = "We experimentally study the transport features of electrons in a spin-diode structure consisting of a single semiconductor quantum dot (QD) weakly coupled to one nonmagnetic and one ferromagnetic (FM) lead, in which the QD has an artificial atomic nature. A Coulomb stability diamond shows asymmetric features with respect to the polarity of the bias voltage. For the regime of two-electron tunneling, we find anomalous suppression of the current for both forward and reverse bias. We discuss possible mechanisms of the anomalous current suppression in terms of spin blockade via the QD-FM interface at the ground state of a two-electron QD.",

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AU - Hamaya, K.

AU - Kitabatake, M.

AU - Shibata, K.

AU - Jung, M.

AU - Ishida, S.

AU - Taniyama, T.

AU - Hirakawa, K.

AU - Arakawa, Y.

AU - MacHida, T.

PY - 2009/6/12

Y1 - 2009/6/12

N2 - We experimentally study the transport features of electrons in a spin-diode structure consisting of a single semiconductor quantum dot (QD) weakly coupled to one nonmagnetic and one ferromagnetic (FM) lead, in which the QD has an artificial atomic nature. A Coulomb stability diamond shows asymmetric features with respect to the polarity of the bias voltage. For the regime of two-electron tunneling, we find anomalous suppression of the current for both forward and reverse bias. We discuss possible mechanisms of the anomalous current suppression in terms of spin blockade via the QD-FM interface at the ground state of a two-electron QD.

AB - We experimentally study the transport features of electrons in a spin-diode structure consisting of a single semiconductor quantum dot (QD) weakly coupled to one nonmagnetic and one ferromagnetic (FM) lead, in which the QD has an artificial atomic nature. A Coulomb stability diamond shows asymmetric features with respect to the polarity of the bias voltage. For the regime of two-electron tunneling, we find anomalous suppression of the current for both forward and reverse bias. We discuss possible mechanisms of the anomalous current suppression in terms of spin blockade via the QD-FM interface at the ground state of a two-electron QD.

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Spin-related current suppression in a semiconductor quantum dot spin-diode structure

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