Surface acoustic wave controlled charge dynamics in a thin InGaAs quantum well

F. J.R. Schülein; J. Pustiowski; K. Müller; M. Bichler; G. Koblmüller; J. J. Finley; A. Wixforth; H. J. Krenner

doi:10.1134/S0021364012110082

Surface acoustic wave controlled charge dynamics in a thin InGaAs quantum well

F. J.R. Schülein, J. Pustiowski, K. Müller, M. Bichler, G. Koblmüller, J. J. Finley, A. Wixforth, H. J. Krenner

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17 Scopus citations

Abstract

We experimentally study the optical emission of a thin quantum well and its dynamic modulation by a surface acoustic wave (SAW). We observe a characteristic transition of the modulation from one maximum to two maxima per SAW cycle as the acoustic power is increased which we find in good agreement with numerical calculations of the SAW controlled carrier dynamics. At low acoustic powers the carrier mobilities limit electron-hole pair dissociation, whereas at high power levels the induced electric fields give rise to efficient acousto-electric carrier transport. The direct comparison between the experimental data and the numerical simulations provide an absolute calibration of the local SAW phase.

Original language	English
Pages (from-to)	575-580
Number of pages	6
Journal	JETP Letters
Volume	95
Issue number	11
DOIs	https://doi.org/10.1134/S0021364012110082
State	Published - Aug 2012

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title = "Surface acoustic wave controlled charge dynamics in a thin InGaAs quantum well",

abstract = "We experimentally study the optical emission of a thin quantum well and its dynamic modulation by a surface acoustic wave (SAW). We observe a characteristic transition of the modulation from one maximum to two maxima per SAW cycle as the acoustic power is increased which we find in good agreement with numerical calculations of the SAW controlled carrier dynamics. At low acoustic powers the carrier mobilities limit electron-hole pair dissociation, whereas at high power levels the induced electric fields give rise to efficient acousto-electric carrier transport. The direct comparison between the experimental data and the numerical simulations provide an absolute calibration of the local SAW phase.",

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doi = "10.1134/S0021364012110082",

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T1 - Surface acoustic wave controlled charge dynamics in a thin InGaAs quantum well

AU - Schülein, F. J.R.

AU - Pustiowski, J.

AU - Müller, K.

AU - Bichler, M.

AU - Koblmüller, G.

AU - Finley, J. J.

AU - Wixforth, A.

AU - Krenner, H. J.

PY - 2012/8

Y1 - 2012/8

N2 - We experimentally study the optical emission of a thin quantum well and its dynamic modulation by a surface acoustic wave (SAW). We observe a characteristic transition of the modulation from one maximum to two maxima per SAW cycle as the acoustic power is increased which we find in good agreement with numerical calculations of the SAW controlled carrier dynamics. At low acoustic powers the carrier mobilities limit electron-hole pair dissociation, whereas at high power levels the induced electric fields give rise to efficient acousto-electric carrier transport. The direct comparison between the experimental data and the numerical simulations provide an absolute calibration of the local SAW phase.

AB - We experimentally study the optical emission of a thin quantum well and its dynamic modulation by a surface acoustic wave (SAW). We observe a characteristic transition of the modulation from one maximum to two maxima per SAW cycle as the acoustic power is increased which we find in good agreement with numerical calculations of the SAW controlled carrier dynamics. At low acoustic powers the carrier mobilities limit electron-hole pair dissociation, whereas at high power levels the induced electric fields give rise to efficient acousto-electric carrier transport. The direct comparison between the experimental data and the numerical simulations provide an absolute calibration of the local SAW phase.

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DO - 10.1134/S0021364012110082

M3 - Article

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SN - 0021-3640

VL - 95

SP - 575

EP - 580

JO - JETP Letters

JF - JETP Letters

IS - 11

ER -

Surface acoustic wave controlled charge dynamics in a thin InGaAs quantum well

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