Directional and dynamic modulation of the optical emission of an individual GaAs nanowire using surface acoustic waves

Jörg B. Kinzel; Daniel Rudolph; Max Bichler; Gerhard Abstreiter; Jonathan J. Finley; Gregor Koblmüller; Achim Wixforth; Hubert J. Krenner

doi:10.1021/nl1042775

Directional and dynamic modulation of the optical emission of an individual GaAs nanowire using surface acoustic waves

Jörg B. Kinzel, Daniel Rudolph, Max Bichler, Gerhard Abstreiter, Jonathan J. Finley, Gregor Koblmüller, Achim Wixforth, Hubert J. Krenner

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

60 Scopus citations

Abstract

We report on optical experiments performed on individual GaAs nanowires and the manipulation of their temporal emission characteristics using a surface acoustic wave. We find a pronounced, characteristic suppression of the emission intensity for the surface acoustic wave propagation aligned with the axis of the nanowire. Furthermore, we demonstrate that this quenching is dynamical as it shows a pronounced modulation as the local phase of the surface acoustic wave is tuned. These effects are strongly reduced for a surface acoustic wave applied in the direction perpendicular to the axis of the nanowire due to their inherent one-dimensional geometry. We resolve a fully dynamic modulation of the nanowire emission up to 678 MHz not limited by the physical properties of the nanowires.

Original language	English
Pages (from-to)	1512-1517
Number of pages	6
Journal	Nano Letters
Volume	11
Issue number	4
DOIs	https://doi.org/10.1021/nl1042775
State	Published - 13 Apr 2011

Keywords

Nanowires
acousto-electric effects
photoluminescence
surface acoustic waves

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10.1021/nl1042775

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title = "Directional and dynamic modulation of the optical emission of an individual GaAs nanowire using surface acoustic waves",

abstract = "We report on optical experiments performed on individual GaAs nanowires and the manipulation of their temporal emission characteristics using a surface acoustic wave. We find a pronounced, characteristic suppression of the emission intensity for the surface acoustic wave propagation aligned with the axis of the nanowire. Furthermore, we demonstrate that this quenching is dynamical as it shows a pronounced modulation as the local phase of the surface acoustic wave is tuned. These effects are strongly reduced for a surface acoustic wave applied in the direction perpendicular to the axis of the nanowire due to their inherent one-dimensional geometry. We resolve a fully dynamic modulation of the nanowire emission up to 678 MHz not limited by the physical properties of the nanowires.",

keywords = "Nanowires, acousto-electric effects, photoluminescence, surface acoustic waves",

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AU - Kinzel, Jörg B.

AU - Rudolph, Daniel

AU - Bichler, Max

AU - Abstreiter, Gerhard

AU - Finley, Jonathan J.

AU - Koblmüller, Gregor

AU - Wixforth, Achim

AU - Krenner, Hubert J.

PY - 2011/4/13

Y1 - 2011/4/13

N2 - We report on optical experiments performed on individual GaAs nanowires and the manipulation of their temporal emission characteristics using a surface acoustic wave. We find a pronounced, characteristic suppression of the emission intensity for the surface acoustic wave propagation aligned with the axis of the nanowire. Furthermore, we demonstrate that this quenching is dynamical as it shows a pronounced modulation as the local phase of the surface acoustic wave is tuned. These effects are strongly reduced for a surface acoustic wave applied in the direction perpendicular to the axis of the nanowire due to their inherent one-dimensional geometry. We resolve a fully dynamic modulation of the nanowire emission up to 678 MHz not limited by the physical properties of the nanowires.

AB - We report on optical experiments performed on individual GaAs nanowires and the manipulation of their temporal emission characteristics using a surface acoustic wave. We find a pronounced, characteristic suppression of the emission intensity for the surface acoustic wave propagation aligned with the axis of the nanowire. Furthermore, we demonstrate that this quenching is dynamical as it shows a pronounced modulation as the local phase of the surface acoustic wave is tuned. These effects are strongly reduced for a surface acoustic wave applied in the direction perpendicular to the axis of the nanowire due to their inherent one-dimensional geometry. We resolve a fully dynamic modulation of the nanowire emission up to 678 MHz not limited by the physical properties of the nanowires.

KW - Nanowires

KW - acousto-electric effects

KW - photoluminescence

KW - surface acoustic waves

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Directional and dynamic modulation of the optical emission of an individual GaAs nanowire using surface acoustic waves

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Keywords

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