Single-electron transistor fabricated by focused laser beam-induced doping of a GaAs/AlGaAs heterostructure

P. Baumgartner; W. Wegscheider; M. Bichler; G. Schedelbeck; R. Neumann; G. Abstreiter

doi:10.1063/1.118969

Single-electron transistor fabricated by focused laser beam-induced doping of a GaAs/AlGaAs heterostructure

P. Baumgartner
, W. Wegscheider
, M. Bichler
, G. Schedelbeck
, R. Neumann
, G. Abstreiter

TUM Emeriti of Excellence

Walter Schottky Institut

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

18 Scopus citations

Abstract

A single-electron transistor has been fabricated by an optical fabrication method. A small dot, a source and drain reservoir, and in-plane gates are all built from the two-dimensional electron gas of an n-type GaAs/AlGaAs heterostructure. Laser-written p-doped lines are used to define this dot with a diameter of about 70 nm and to insulate it from the in-plane gates. Tunnel junctions connect the dot with source and drain. The in-plane gates are used to tune the tunnel junctions and to change the electrostatic potential of the dot. A large charging energy of 5 meV and clear Coulomb-blockade oscillations are observed at helium temperature, due to a small dot capacitance of about 3 × 10^-17 F.

Original language	English
Pages (from-to)	2135-2137
Number of pages	3
Journal	Applied Physics Letters
Volume	70
Issue number	16
DOIs	https://doi.org/10.1063/1.118969
State	Published - 21 Apr 1997

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abstract = "A single-electron transistor has been fabricated by an optical fabrication method. A small dot, a source and drain reservoir, and in-plane gates are all built from the two-dimensional electron gas of an n-type GaAs/AlGaAs heterostructure. Laser-written p-doped lines are used to define this dot with a diameter of about 70 nm and to insulate it from the in-plane gates. Tunnel junctions connect the dot with source and drain. The in-plane gates are used to tune the tunnel junctions and to change the electrostatic potential of the dot. A large charging energy of 5 meV and clear Coulomb-blockade oscillations are observed at helium temperature, due to a small dot capacitance of about 3 × 10-17 F.",

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year = "1997",

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AU - Baumgartner, P.

AU - Wegscheider, W.

AU - Bichler, M.

AU - Schedelbeck, G.

AU - Neumann, R.

AU - Abstreiter, G.

PY - 1997/4/21

Y1 - 1997/4/21

N2 - A single-electron transistor has been fabricated by an optical fabrication method. A small dot, a source and drain reservoir, and in-plane gates are all built from the two-dimensional electron gas of an n-type GaAs/AlGaAs heterostructure. Laser-written p-doped lines are used to define this dot with a diameter of about 70 nm and to insulate it from the in-plane gates. Tunnel junctions connect the dot with source and drain. The in-plane gates are used to tune the tunnel junctions and to change the electrostatic potential of the dot. A large charging energy of 5 meV and clear Coulomb-blockade oscillations are observed at helium temperature, due to a small dot capacitance of about 3 × 10-17 F.

AB - A single-electron transistor has been fabricated by an optical fabrication method. A small dot, a source and drain reservoir, and in-plane gates are all built from the two-dimensional electron gas of an n-type GaAs/AlGaAs heterostructure. Laser-written p-doped lines are used to define this dot with a diameter of about 70 nm and to insulate it from the in-plane gates. Tunnel junctions connect the dot with source and drain. The in-plane gates are used to tune the tunnel junctions and to change the electrostatic potential of the dot. A large charging energy of 5 meV and clear Coulomb-blockade oscillations are observed at helium temperature, due to a small dot capacitance of about 3 × 10-17 F.

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JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 16

ER -

Single-electron transistor fabricated by focused laser beam-induced doping of a GaAs/AlGaAs heterostructure

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