Coulomb Mediated Hybridization of Excitons in Coupled Quantum Dots

P. L. Ardelt; K. Gawarecki; K. Müller; A. M. Waeber; A. Bechtold; K. Oberhofer; J. M. Daniels; F. Klotz; M. Bichler; T. Kuhn; H. J. Krenner; P. Machnikowski; J. J. Finley

doi:10.1103/PhysRevLett.116.077401

Coulomb Mediated Hybridization of Excitons in Coupled Quantum Dots

P. L. Ardelt
, K. Gawarecki
, K. Müller
, A. M. Waeber
, A. Bechtold
, K. Oberhofer
, J. M. Daniels
, F. Klotz
, M. Bichler
, T. Kuhn
, H. J. Krenner
, P. Machnikowski
, J. J. Finley

Walter Schottky Institut
Nanosystems Initiative Munich
Technical University Wroclaw
E. L. Ginzton Laboratory, Stanford University
University of Münster
University Hospital Augsburg

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

26 Scopus citations

Abstract

We report Coulomb mediated hybridization of excitonic states in optically active InGaAs quantum dot molecules. By probing the optical response of an individual quantum dot molecule as a function of the static electric field applied along the molecular axis, we observe unexpected avoided level crossings that do not arise from the dominant single-particle tunnel coupling. We identify a new few-particle coupling mechanism stemming from Coulomb interactions between different neutral exciton states. Such Coulomb resonances hybridize the exciton wave function over four different electron and hole single-particle orbitals. Comparisons of experimental observations with microscopic eight-band k·p calculations taking into account a realistic quantum dot geometry show good agreement and reveal that the Coulomb resonances arise from broken symmetry in the artificial semiconductor molecule.

Original language	English
Article number	077401
Journal	Physical Review Letters
Volume	116
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.116.077401
State	Published - 19 Feb 2016

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10.1103/PhysRevLett.116.077401

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title = "Coulomb Mediated Hybridization of Excitons in Coupled Quantum Dots",

abstract = "We report Coulomb mediated hybridization of excitonic states in optically active InGaAs quantum dot molecules. By probing the optical response of an individual quantum dot molecule as a function of the static electric field applied along the molecular axis, we observe unexpected avoided level crossings that do not arise from the dominant single-particle tunnel coupling. We identify a new few-particle coupling mechanism stemming from Coulomb interactions between different neutral exciton states. Such Coulomb resonances hybridize the exciton wave function over four different electron and hole single-particle orbitals. Comparisons of experimental observations with microscopic eight-band k·p calculations taking into account a realistic quantum dot geometry show good agreement and reveal that the Coulomb resonances arise from broken symmetry in the artificial semiconductor molecule.",

author = "Ardelt, \{P. L.\} and K. Gawarecki and K. M{\"u}ller and Waeber, \{A. M.\} and A. Bechtold and K. Oberhofer and Daniels, \{J. M.\} and F. Klotz and M. Bichler and T. Kuhn and Krenner, \{H. J.\} and P. Machnikowski and Finley, \{J. J.\}",

note = "Publisher Copyright: {\textcopyright} 2016 American Physical Society.",

year = "2016",

month = feb,

day = "19",

doi = "10.1103/PhysRevLett.116.077401",

language = "English",

volume = "116",

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TY - JOUR

T1 - Coulomb Mediated Hybridization of Excitons in Coupled Quantum Dots

AU - Ardelt, P. L.

AU - Gawarecki, K.

AU - Müller, K.

AU - Waeber, A. M.

AU - Bechtold, A.

AU - Oberhofer, K.

AU - Daniels, J. M.

AU - Klotz, F.

AU - Bichler, M.

AU - Kuhn, T.

AU - Krenner, H. J.

AU - Machnikowski, P.

AU - Finley, J. J.

PY - 2016/2/19

Y1 - 2016/2/19

N2 - We report Coulomb mediated hybridization of excitonic states in optically active InGaAs quantum dot molecules. By probing the optical response of an individual quantum dot molecule as a function of the static electric field applied along the molecular axis, we observe unexpected avoided level crossings that do not arise from the dominant single-particle tunnel coupling. We identify a new few-particle coupling mechanism stemming from Coulomb interactions between different neutral exciton states. Such Coulomb resonances hybridize the exciton wave function over four different electron and hole single-particle orbitals. Comparisons of experimental observations with microscopic eight-band k·p calculations taking into account a realistic quantum dot geometry show good agreement and reveal that the Coulomb resonances arise from broken symmetry in the artificial semiconductor molecule.

AB - We report Coulomb mediated hybridization of excitonic states in optically active InGaAs quantum dot molecules. By probing the optical response of an individual quantum dot molecule as a function of the static electric field applied along the molecular axis, we observe unexpected avoided level crossings that do not arise from the dominant single-particle tunnel coupling. We identify a new few-particle coupling mechanism stemming from Coulomb interactions between different neutral exciton states. Such Coulomb resonances hybridize the exciton wave function over four different electron and hole single-particle orbitals. Comparisons of experimental observations with microscopic eight-band k·p calculations taking into account a realistic quantum dot geometry show good agreement and reveal that the Coulomb resonances arise from broken symmetry in the artificial semiconductor molecule.

UR - https://www.scopus.com/pages/publications/84959431473

U2 - 10.1103/PhysRevLett.116.077401

DO - 10.1103/PhysRevLett.116.077401

M3 - Article

AN - SCOPUS:84959431473

SN - 0031-9007

VL - 116

JO - Physical Review Letters

JF - Physical Review Letters

IS - 7

M1 - 077401

ER -

Coulomb Mediated Hybridization of Excitons in Coupled Quantum Dots

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