Probing Confined Phonon Modes by Transport through a Nanowire Double Quantum Dot

Carsten Weber; Andreas Fuhrer; Carina Fasth; Greta Lindwall; Lars Samuelson; Andreas Wacker

doi:10.1103/PhysRevLett.104.036801

Probing Confined Phonon Modes by Transport through a Nanowire Double Quantum Dot

Carsten Weber, Andreas Fuhrer, Carina Fasth, Greta Lindwall, Lars Samuelson, Andreas Wacker

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Abstract

Strong radial confinement in semiconductor nanowires leads to modified electronic and phononic energy spectra. We analyze the current response to the interplay between quantum confinement effects of the electron and phonon systems in a gate-defined double quantum dot in a semiconductor nanowire. We show that current spectroscopy of inelastic transitions between the two quantum dots can be used as an experimental probe of the confined phonon environment. The resulting discrete peak structure in the measurements is explained by theoretical modeling of the confined phonon mode spectrum, where the piezoelectric coupling is of crucial importance.

Original language	English
Pages (from-to)	036801-1-036801-4
Journal	Physical Review Letters
Volume	104
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.104.036801
Publication status	Published - 2010

Subject classification (UKÄ)

Condensed Matter Physics (including Material Physics, Nano Physics)

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10.1103/PhysRevLett.104.036801

weberPRL2010

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title = "Probing Confined Phonon Modes by Transport through a Nanowire Double Quantum Dot",

abstract = "Strong radial confinement in semiconductor nanowires leads to modified electronic and phononic energy spectra. We analyze the current response to the interplay between quantum confinement effects of the electron and phonon systems in a gate-defined double quantum dot in a semiconductor nanowire. We show that current spectroscopy of inelastic transitions between the two quantum dots can be used as an experimental probe of the confined phonon environment. The resulting discrete peak structure in the measurements is explained by theoretical modeling of the confined phonon mode spectrum, where the piezoelectric coupling is of crucial importance.",

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AU - Weber, Carsten

AU - Fuhrer, Andreas

AU - Fasth, Carina

AU - Lindwall, Greta

AU - Samuelson, Lars

AU - Wacker, Andreas

PY - 2010

Y1 - 2010

N2 - Strong radial confinement in semiconductor nanowires leads to modified electronic and phononic energy spectra. We analyze the current response to the interplay between quantum confinement effects of the electron and phonon systems in a gate-defined double quantum dot in a semiconductor nanowire. We show that current spectroscopy of inelastic transitions between the two quantum dots can be used as an experimental probe of the confined phonon environment. The resulting discrete peak structure in the measurements is explained by theoretical modeling of the confined phonon mode spectrum, where the piezoelectric coupling is of crucial importance.

AB - Strong radial confinement in semiconductor nanowires leads to modified electronic and phononic energy spectra. We analyze the current response to the interplay between quantum confinement effects of the electron and phonon systems in a gate-defined double quantum dot in a semiconductor nanowire. We show that current spectroscopy of inelastic transitions between the two quantum dots can be used as an experimental probe of the confined phonon environment. The resulting discrete peak structure in the measurements is explained by theoretical modeling of the confined phonon mode spectrum, where the piezoelectric coupling is of crucial importance.

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DO - 10.1103/PhysRevLett.104.036801

M3 - Article

C2 - 20366667

SN - 1079-7114

VL - 104

SP - 036801-1-036801-4

JO - Physical Review Letters

JF - Physical Review Letters

IS - 3

ER -

Probing Confined Phonon Modes by Transport through a Nanowire Double Quantum Dot

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