Self-assembly of metallic double-dot single-electron device

A. Guttman; D. Mahalu; J. Sperling; E. Cohen-Hoshen; I. Bar-Joseph

doi:10.1063/1.3624899

Self-assembly of metallic double-dot single-electron device

A. Guttman, D. Mahalu, J. Sperling, E. Cohen-Hoshen, I. Bar-Joseph

Department of Condensed Matter Physics

Weizmann Institute of Science

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

Abstract

We present an approach that allows forming a nanometric double dot single electron device. It uses chemical synthesis of metallic nanoparticles to form dimeric structures, e-beam lithography to define electrodes and gates, and electrostatic trapping to place the dimers in between the electrodes. We demonstrate a control of its charge configuration and conductance properties over a wide range of external voltages. This approach can be straightforwardly generalized to other material systems and may allow realizing quantum information devices.

Original language	English
Article number	063113
Journal	Applied Physics Letters
Volume	99
Issue number	6
DOIs	https://doi.org/10.1063/1.3624899
State	Published - 8 Aug 2011

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.3624899

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title = "Self-assembly of metallic double-dot single-electron device",

abstract = "We present an approach that allows forming a nanometric double dot single electron device. It uses chemical synthesis of metallic nanoparticles to form dimeric structures, e-beam lithography to define electrodes and gates, and electrostatic trapping to place the dimers in between the electrodes. We demonstrate a control of its charge configuration and conductance properties over a wide range of external voltages. This approach can be straightforwardly generalized to other material systems and may allow realizing quantum information devices.",

author = "A. Guttman and D. Mahalu and J. Sperling and E. Cohen-Hoshen and I. Bar-Joseph",

note = "Israel Science FoundationThis research was supported by the Israel Science Foundation. We wish to acknowledge S. Cohen, T. Dadosh, M. Dyshel, V. Frydman, Y. Gordin, and A. Yacoby for their help in carrying out this research.",

year = "2011",

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doi = "10.1063/1.3624899",

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T1 - Self-assembly of metallic double-dot single-electron device

AU - Guttman, A.

AU - Mahalu, D.

AU - Sperling, J.

AU - Cohen-Hoshen, E.

AU - Bar-Joseph, I.

N1 - Israel Science FoundationThis research was supported by the Israel Science Foundation. We wish to acknowledge S. Cohen, T. Dadosh, M. Dyshel, V. Frydman, Y. Gordin, and A. Yacoby for their help in carrying out this research.

PY - 2011/8/8

Y1 - 2011/8/8

N2 - We present an approach that allows forming a nanometric double dot single electron device. It uses chemical synthesis of metallic nanoparticles to form dimeric structures, e-beam lithography to define electrodes and gates, and electrostatic trapping to place the dimers in between the electrodes. We demonstrate a control of its charge configuration and conductance properties over a wide range of external voltages. This approach can be straightforwardly generalized to other material systems and may allow realizing quantum information devices.

AB - We present an approach that allows forming a nanometric double dot single electron device. It uses chemical synthesis of metallic nanoparticles to form dimeric structures, e-beam lithography to define electrodes and gates, and electrostatic trapping to place the dimers in between the electrodes. We demonstrate a control of its charge configuration and conductance properties over a wide range of external voltages. This approach can be straightforwardly generalized to other material systems and may allow realizing quantum information devices.

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JO - Applied Physics Letters

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Self-assembly of metallic double-dot single-electron device

Abstract

All Science Journal Classification (ASJC) codes

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