Bends in nanotubes allow electric spin control and coupling

Karsten Flensberg; Charles Masamed Marcus

doi:10.1103/PhysRevB.81.195418

Bends in nanotubes allow electric spin control and coupling

Karsten Flensberg, Charles Masamed Marcus

83 Citations (Scopus)

Abstract

We investigate combined effects of spin-orbit coupling and magnetic field in carbon nanotubes containing one or more bends along their length. We show how bends can be used to provide electrical control of confined spins, while spins confined in straight segments remain insensitive to electric fields. Device geometries that allow general rotation of single spins are presented and analyzed. In addition, capacitive coupling along bends provides coherent spin-spin interaction, including between otherwise disconnected nanotubes, completing a universal set of one- and two-qubit gates.

Original language	English
Journal	Physical Review B Condensed Matter
Volume	81
Issue number	19
Pages (from-to)	195418
Number of pages	6
ISSN	0163-1829
DOIs	https://doi.org/10.1103/PhysRevB.81.195418
Publication status	Published - 11 May 2010

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10.1103/PhysRevB.81.195418

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title = "Bends in nanotubes allow electric spin control and coupling",

abstract = "We investigate combined effects of spin-orbit coupling and magnetic field in carbon nanotubes containing one or more bends along their length. We show how bends can be used to provide electrical control of confined spins, while spins confined in straight segments remain insensitive to electric fields. Device geometries that allow general rotation of single spins are presented and analyzed. In addition, capacitive coupling along bends provides coherent spin-spin interaction, including between otherwise disconnected nanotubes, completing a universal set of one- and two-qubit gates.",

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AB - We investigate combined effects of spin-orbit coupling and magnetic field in carbon nanotubes containing one or more bends along their length. We show how bends can be used to provide electrical control of confined spins, while spins confined in straight segments remain insensitive to electric fields. Device geometries that allow general rotation of single spins are presented and analyzed. In addition, capacitive coupling along bends provides coherent spin-spin interaction, including between otherwise disconnected nanotubes, completing a universal set of one- and two-qubit gates.

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DO - 10.1103/PhysRevB.81.195418

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Bends in nanotubes allow electric spin control and coupling

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