Controlled wave-function mixing in strongly coupled one-dimensional wires

Thomas, K J , Nicholls, James, Simmons, M Y , Tribe, W R , Davies, A G and Pepper, M

(1999)

Thomas, K J , Nicholls, James, Simmons, M Y , Tribe, W R , Davies, A G and Pepper, M (1999) Controlled wave-function mixing in strongly coupled one-dimensional wires. Physical Review B, 59 (19).

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Abstract

We investigate the transport properties of two strongly coupled ballistic one-dimensional (1D) wires, defined by a split-gate structure deposited on a GaAs/AlGaAs double quantum well. Matching the widths and electron densities of the two wires brings them into resonance, forming symmetric and antisymmetric 1D subbands separated by energy gaps that are measured to be larger than their two-dimensional counterparts. Applying a magnetic field parallel to the wire axes enhances wave-function mixing at low fields, whereas at high fields the wires become completely decoupled.

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This is a Submitted version
This version's date is: 15/5/1999
This item is not peer reviewed

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https://repository.royalholloway.ac.uk/items/5ed28573-c705-e9bc-5bc6-11570b12489c/2/

Item TypeJournal Article
TitleControlled wave-function mixing in strongly coupled one-dimensional wires
AuthorsThomas, K J
Nicholls, James
Simmons, M Y
Tribe, W R
Davies, A G
Pepper, M
Uncontrolled KeywordsELECTRON
DepartmentsFaculty of Science\Physics
Research Groups and Centres\Physics\Low Temperature Physics

Identifiers
doihttp://dx.doi.org/10.1103/PhysRevB.59.12252

Deposited by Research Information System (atira) on 06-Jun-2012 in Royal Holloway Research Online.Last modified on 06-Jun-2012

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