Transport in an Electron Interferometer and an Artificial One-Dimensional Crystal

B.J. van Wees; L.P. Kouwenhoven; J.R. Kraayeveld; F.W.J. Hekking; C.J.P.M. Harmans; J.G. Williamson

doi:10.1016/S0921-4526(09)80009-4

Transport in an Electron Interferometer and an Artificial One-Dimensional Crystal

B.J. van Wees, L.P. Kouwenhoven, J.R. Kraayeveld, F.W.J. Hekking, C.J.P.M. Harmans, J.G. Williamson

Zernike Institute for Advanced Materials

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We have studied the electron transport in a one-dimensional electron interferometer. It consists of a quantum dot, defined in a two-dimensional electron gas, to which quantum point contacts are attached. Discrete electronic states are formed due to the constructive interference of electron waves which travel along the circumference of the dot in one-dimensional magnetic edge channels. An artificial one-dimensional crystal has been fabricated, which consists of a sequence of 15 quantum dots, coupled by point contacts. The conductance of this device reveals the formation of a band structure, including the gaps between adjacent bands and the discrete electronic states from which the bands are constructed.

Originele taal-2	English
Aantal pagina's	2
Tijdschrift	Physica B: Condensed Matter
Volume	165
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1016/S0921-4526(09)80009-4
Status	Published - 1990

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title = "Transport in an Electron Interferometer and an Artificial One-Dimensional Crystal",

abstract = "We have studied the electron transport in a one-dimensional electron interferometer. It consists of a quantum dot, defined in a two-dimensional electron gas, to which quantum point contacts are attached. Discrete electronic states are formed due to the constructive interference of electron waves which travel along the circumference of the dot in one-dimensional magnetic edge channels. An artificial one-dimensional crystal has been fabricated, which consists of a sequence of 15 quantum dots, coupled by point contacts. The conductance of this device reveals the formation of a band structure, including the gaps between adjacent bands and the discrete electronic states from which the bands are constructed.",

author = "Wees, {B.J. van} and L.P. Kouwenhoven and J.R. Kraayeveld and F.W.J. Hekking and C.J.P.M. Harmans and J.G. Williamson",

note = "Relation: http://www.rug.nl/natuurkunde/ date_submitted:2006 Rights: University of Groningen. Materials Science Centre",

year = "1990",

doi = "10.1016/S0921-4526(09)80009-4",

language = "English",

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T1 - Transport in an Electron Interferometer and an Artificial One-Dimensional Crystal

AU - Wees, B.J. van

AU - Kouwenhoven, L.P.

AU - Kraayeveld, J.R.

AU - Hekking, F.W.J.

AU - Harmans, C.J.P.M.

AU - Williamson, J.G.

N1 - Relation: http://www.rug.nl/natuurkunde/ date_submitted:2006 Rights: University of Groningen. Materials Science Centre

PY - 1990

Y1 - 1990

N2 - We have studied the electron transport in a one-dimensional electron interferometer. It consists of a quantum dot, defined in a two-dimensional electron gas, to which quantum point contacts are attached. Discrete electronic states are formed due to the constructive interference of electron waves which travel along the circumference of the dot in one-dimensional magnetic edge channels. An artificial one-dimensional crystal has been fabricated, which consists of a sequence of 15 quantum dots, coupled by point contacts. The conductance of this device reveals the formation of a band structure, including the gaps between adjacent bands and the discrete electronic states from which the bands are constructed.

AB - We have studied the electron transport in a one-dimensional electron interferometer. It consists of a quantum dot, defined in a two-dimensional electron gas, to which quantum point contacts are attached. Discrete electronic states are formed due to the constructive interference of electron waves which travel along the circumference of the dot in one-dimensional magnetic edge channels. An artificial one-dimensional crystal has been fabricated, which consists of a sequence of 15 quantum dots, coupled by point contacts. The conductance of this device reveals the formation of a band structure, including the gaps between adjacent bands and the discrete electronic states from which the bands are constructed.

U2 - 10.1016/S0921-4526(09)80009-4

DO - 10.1016/S0921-4526(09)80009-4

M3 - Article

SN - 1187-2135

VL - 165

JO - Physica B: Condensed Matter

JF - Physica B: Condensed Matter

IS - 1

ER -

Transport in an Electron Interferometer and an Artificial One-Dimensional Crystal

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