Ultrafast dynamics of type-II GaSb/GaAs quantum dots

K. Komolibus; T. Piwonski; K. Gradkowski; C. J. Reyner; B. Liang; G. Huyet; D. L. Huffaker; J. Houlihan

doi:10.1063/1.4906106

Ultrafast dynamics of type-II GaSb/GaAs quantum dots

K. Komolibus, T. Piwonski, K. Gradkowski, C. J. Reyner, B. Liang, G. Huyet, D. L. Huffaker, J. Houlihan

Department of Science

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

2 Citations (Scopus)

Abstract

In this paper, room temperature two-colour pump-probe spectroscopy is employed to study ultrafast carrier dynamics in type-II GaSb/GaAs quantum dots. Our results demonstrate a strong dependency of carrier capture/escape processes on applied reverse bias voltage, probing wavelength and number of injected carriers. The extracted timescales as a function of both forward and reverse bias may provide important information for the design of efficient solar cells and quantum dot memories based on this material. The first few picoseconds of the dynamics reveal a complex behaviour with an interesting feature, which does not appear in devices based on type-I materials, and hence is linked to the unique carrier capture/escape processes possible in type-II structures.

Original language	English
Article number	031106
Journal	Applied Physics Letters
Volume	106
Issue number	3
DOIs	https://doi.org/10.1063/1.4906106
Publication status	Published - 19 Jan 2015

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title = "Ultrafast dynamics of type-II GaSb/GaAs quantum dots",

abstract = "In this paper, room temperature two-colour pump-probe spectroscopy is employed to study ultrafast carrier dynamics in type-II GaSb/GaAs quantum dots. Our results demonstrate a strong dependency of carrier capture/escape processes on applied reverse bias voltage, probing wavelength and number of injected carriers. The extracted timescales as a function of both forward and reverse bias may provide important information for the design of efficient solar cells and quantum dot memories based on this material. The first few picoseconds of the dynamics reveal a complex behaviour with an interesting feature, which does not appear in devices based on type-I materials, and hence is linked to the unique carrier capture/escape processes possible in type-II structures.",

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AU - Komolibus, K.

AU - Piwonski, T.

AU - Gradkowski, K.

AU - Reyner, C. J.

AU - Liang, B.

AU - Huyet, G.

AU - Huffaker, D. L.

AU - Houlihan, J.

PY - 2015/1/19

Y1 - 2015/1/19

N2 - In this paper, room temperature two-colour pump-probe spectroscopy is employed to study ultrafast carrier dynamics in type-II GaSb/GaAs quantum dots. Our results demonstrate a strong dependency of carrier capture/escape processes on applied reverse bias voltage, probing wavelength and number of injected carriers. The extracted timescales as a function of both forward and reverse bias may provide important information for the design of efficient solar cells and quantum dot memories based on this material. The first few picoseconds of the dynamics reveal a complex behaviour with an interesting feature, which does not appear in devices based on type-I materials, and hence is linked to the unique carrier capture/escape processes possible in type-II structures.

AB - In this paper, room temperature two-colour pump-probe spectroscopy is employed to study ultrafast carrier dynamics in type-II GaSb/GaAs quantum dots. Our results demonstrate a strong dependency of carrier capture/escape processes on applied reverse bias voltage, probing wavelength and number of injected carriers. The extracted timescales as a function of both forward and reverse bias may provide important information for the design of efficient solar cells and quantum dot memories based on this material. The first few picoseconds of the dynamics reveal a complex behaviour with an interesting feature, which does not appear in devices based on type-I materials, and hence is linked to the unique carrier capture/escape processes possible in type-II structures.

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VL - 106

JO - Applied Physics Letters

JF - Applied Physics Letters

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Ultrafast dynamics of type-II GaSb/GaAs quantum dots

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