Temperature and laser energy dependence of the electron g-factor in intrinsic InGaAs/InAlAs multiple quantum wells

K. Morita; A. Okumura; H. Takaiwa; I. Takazawa; T. Oda; T. Kitada; M. Kohda; Y. Ishitani

doi:10.1063/1.5100343

Temperature and laser energy dependence of the electron g-factor in intrinsic InGaAs/InAlAs multiple quantum wells

K. Morita, A. Okumura, H. Takaiwa, I. Takazawa, T. Oda, T. Kitada, M. Kohda, Y. Ishitani

ENG - Materials Science

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

1 Citation (Scopus)

Abstract

Temperature and laser energy dependencies of electron g-factors are investigated for the conduction band of In_0.53Ga_0.47As/In_0.52Al_0.48As quantum wells using the time-resolved Faraday rotation (TRFR) technique. We found that in- and out-plane g-factors are ∼-3.20 and ∼-3.50 at a temperature of 5 K for the 12-nm wide quantum wells in a tilted sample configuration of the TRFR measurement. A comparison between the experiment and the eight-band Kane model calculation shows that the thermal distribution and dilatational change of the energy gap play an important role in explaining the temperature dependence of optically measured g-factors. We also found that the measured g-factor is influenced by the laser wavelength, which clearly shows that detection energy is the one of the significant factors for determining the optically measured g-factor.

Original language	English
Article number	012404
Journal	Applied Physics Letters
Volume	115
Issue number	1
DOIs	https://doi.org/10.1063/1.5100343
Publication status	Published - 2019 Jul 1

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title = "Temperature and laser energy dependence of the electron g-factor in intrinsic InGaAs/InAlAs multiple quantum wells",

abstract = "Temperature and laser energy dependencies of electron g-factors are investigated for the conduction band of In0.53Ga0.47As/In0.52Al0.48As quantum wells using the time-resolved Faraday rotation (TRFR) technique. We found that in- and out-plane g-factors are ∼-3.20 and ∼-3.50 at a temperature of 5 K for the 12-nm wide quantum wells in a tilted sample configuration of the TRFR measurement. A comparison between the experiment and the eight-band Kane model calculation shows that the thermal distribution and dilatational change of the energy gap play an important role in explaining the temperature dependence of optically measured g-factors. We also found that the measured g-factor is influenced by the laser wavelength, which clearly shows that detection energy is the one of the significant factors for determining the optically measured g-factor.",

author = "K. Morita and A. Okumura and H. Takaiwa and I. Takazawa and T. Oda and T. Kitada and M. Kohda and Y. Ishitani",

note = "Funding Information: We thank R. Kurosawa, H. Tatematsu, S. Iba, T. Isu, and Y. Ohno for fruitful discussions. This work was partially supported by the Japan Society for the Promotion of Science (JSPS) (Grant Nos. 26390074, 17H02795, and 15H02099), the Basic Science Research Projects of Sumitomo Foundation, and the Murata Science Foundation. Publisher Copyright: {\textcopyright} 2019 Author(s).",

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doi = "10.1063/1.5100343",

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T1 - Temperature and laser energy dependence of the electron g-factor in intrinsic InGaAs/InAlAs multiple quantum wells

AU - Morita, K.

AU - Okumura, A.

AU - Takaiwa, H.

AU - Takazawa, I.

AU - Oda, T.

AU - Kitada, T.

AU - Kohda, M.

AU - Ishitani, Y.

N1 - Funding Information: We thank R. Kurosawa, H. Tatematsu, S. Iba, T. Isu, and Y. Ohno for fruitful discussions. This work was partially supported by the Japan Society for the Promotion of Science (JSPS) (Grant Nos. 26390074, 17H02795, and 15H02099), the Basic Science Research Projects of Sumitomo Foundation, and the Murata Science Foundation. Publisher Copyright: © 2019 Author(s).

PY - 2019/7/1

Y1 - 2019/7/1

N2 - Temperature and laser energy dependencies of electron g-factors are investigated for the conduction band of In0.53Ga0.47As/In0.52Al0.48As quantum wells using the time-resolved Faraday rotation (TRFR) technique. We found that in- and out-plane g-factors are ∼-3.20 and ∼-3.50 at a temperature of 5 K for the 12-nm wide quantum wells in a tilted sample configuration of the TRFR measurement. A comparison between the experiment and the eight-band Kane model calculation shows that the thermal distribution and dilatational change of the energy gap play an important role in explaining the temperature dependence of optically measured g-factors. We also found that the measured g-factor is influenced by the laser wavelength, which clearly shows that detection energy is the one of the significant factors for determining the optically measured g-factor.

AB - Temperature and laser energy dependencies of electron g-factors are investigated for the conduction band of In0.53Ga0.47As/In0.52Al0.48As quantum wells using the time-resolved Faraday rotation (TRFR) technique. We found that in- and out-plane g-factors are ∼-3.20 and ∼-3.50 at a temperature of 5 K for the 12-nm wide quantum wells in a tilted sample configuration of the TRFR measurement. A comparison between the experiment and the eight-band Kane model calculation shows that the thermal distribution and dilatational change of the energy gap play an important role in explaining the temperature dependence of optically measured g-factors. We also found that the measured g-factor is influenced by the laser wavelength, which clearly shows that detection energy is the one of the significant factors for determining the optically measured g-factor.

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Temperature and laser energy dependence of the electron g-factor in intrinsic InGaAs/InAlAs multiple quantum wells

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