Free induction decay and quantum beat of excitons in ZnSe

T. Saiki; K. Takeuchi; K. Ema; M. Kuwata-Gonokami; K. Ohkawa; T. Mitsuyu

doi:10.1016/0022-0248(94)90911-3

Free induction decay and quantum beat of excitons in ZnSe

T. Saiki, K. Takeuchi, K. Ema, M. Kuwata-Gonokami, K. Ohkawa, T. Mitsuyu

研究成果: Article › 査読

8 被引用数 (Scopus)

抄録

We study coherent transient phenomena of excitons using femtosecond time-resolved four-wave-mixing (TR- FWM) in two types of high quality thin films of ZnSe; one is a homo-epitaxial film (1.2 μm thickness) and the other is a very thin (50nm) hetero-epitaxial film on GaAs substrate. Free induction decay (FID) behavior of the third-order polarization is clearly observed. We obtained the same values of exciton dephasing time from the temporal measurements, the decay time of FID, and the frequency domain measurements, analyses of reflection spectra. This implies that the excitons in ZnSe films are homogeneous. In the thin film sample, we observe a beat signal in time-integrated and time-resolved FWM. Based on the perturbational calculation, we conclude that the beat originates from the quantum interference of heavy- and light-hole excitons.

本文言語	English
ページ（範囲）	805-808
ページ数	4
ジャーナル	Journal of Crystal Growth
巻	138
号	1-4
DOI	https://doi.org/10.1016/0022-0248(94)90911-3
出版ステータス	Published - 1994 4月 2
外部発表	はい

ASJC Scopus subject areas

凝縮系物理学
無機化学
材料化学

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10.1016/0022-0248(94)90911-3

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title = "Free induction decay and quantum beat of excitons in ZnSe",

abstract = "We study coherent transient phenomena of excitons using femtosecond time-resolved four-wave-mixing (TR- FWM) in two types of high quality thin films of ZnSe; one is a homo-epitaxial film (1.2 μm thickness) and the other is a very thin (50nm) hetero-epitaxial film on GaAs substrate. Free induction decay (FID) behavior of the third-order polarization is clearly observed. We obtained the same values of exciton dephasing time from the temporal measurements, the decay time of FID, and the frequency domain measurements, analyses of reflection spectra. This implies that the excitons in ZnSe films are homogeneous. In the thin film sample, we observe a beat signal in time-integrated and time-resolved FWM. Based on the perturbational calculation, we conclude that the beat originates from the quantum interference of heavy- and light-hole excitons.",

author = "T. Saiki and K. Takeuchi and K. Ema and M. Kuwata-Gonokami and K. Ohkawa and T. Mitsuyu",

note = "Funding Information: The authors are grateful to Professor E. Hana-mura for enlightening discussions. This work is supported by a Grant-in-Aid for General Scientific Research and a Grant-in-Aid for Developmental Scientific Research from the Ministry of Education, Science and Culture, Japan.",

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AU - Saiki, T.

AU - Takeuchi, K.

AU - Ema, K.

AU - Kuwata-Gonokami, M.

AU - Ohkawa, K.

AU - Mitsuyu, T.

N1 - Funding Information: The authors are grateful to Professor E. Hana-mura for enlightening discussions. This work is supported by a Grant-in-Aid for General Scientific Research and a Grant-in-Aid for Developmental Scientific Research from the Ministry of Education, Science and Culture, Japan.

PY - 1994/4/2

Y1 - 1994/4/2

N2 - We study coherent transient phenomena of excitons using femtosecond time-resolved four-wave-mixing (TR- FWM) in two types of high quality thin films of ZnSe; one is a homo-epitaxial film (1.2 μm thickness) and the other is a very thin (50nm) hetero-epitaxial film on GaAs substrate. Free induction decay (FID) behavior of the third-order polarization is clearly observed. We obtained the same values of exciton dephasing time from the temporal measurements, the decay time of FID, and the frequency domain measurements, analyses of reflection spectra. This implies that the excitons in ZnSe films are homogeneous. In the thin film sample, we observe a beat signal in time-integrated and time-resolved FWM. Based on the perturbational calculation, we conclude that the beat originates from the quantum interference of heavy- and light-hole excitons.

AB - We study coherent transient phenomena of excitons using femtosecond time-resolved four-wave-mixing (TR- FWM) in two types of high quality thin films of ZnSe; one is a homo-epitaxial film (1.2 μm thickness) and the other is a very thin (50nm) hetero-epitaxial film on GaAs substrate. Free induction decay (FID) behavior of the third-order polarization is clearly observed. We obtained the same values of exciton dephasing time from the temporal measurements, the decay time of FID, and the frequency domain measurements, analyses of reflection spectra. This implies that the excitons in ZnSe films are homogeneous. In the thin film sample, we observe a beat signal in time-integrated and time-resolved FWM. Based on the perturbational calculation, we conclude that the beat originates from the quantum interference of heavy- and light-hole excitons.

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Free induction decay and quantum beat of excitons in ZnSe

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