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Ultrafast Response Induced by Interference Effects between Weakly Confined Exciton States
Osamu Kojima1,2,4,
Toshiro Isu1,3,4,
Junko Ishi-Hayase1,4,
Atsushi Kanno1,4,
Redouane Katouf1,4,
Masahide Sasaki1, and
Masahiro Tsuchiya1,4
1National Institute of Information and Communications Technology, 4-2-1 Nukui-Kitamachi, Koganei, Tokyo 184-8795
2Department of Electrical and Electronics Engineering, Kobe University, 1-1 Rokkodai, Nada, Kobe 657-8501
3Department of Nano-Technology, Institute of Technology and Science, The University of Tokushima, 2-1 Minamijosanjima-cho, Tokushima 770-8506
4CREST, Japan Science and Technology Agency, Japan
(Received December 20, 2007; Accepted January 11, 2008; Published March 25, 2008)
We report an ultrafast response of weakly confined excitons in GaAs thin films observed by a degenerate four-wave-mixing (DFWM) technique. The time-domain signals excited by broadband pulses show an oscillatory structure with a period that varies according to the pulse spectral width and an ultrafast response comparable to the pulse width; on the other hand, the exciton dephasing time is hardly changed by the excitation spectral width. This ultrafast response is much faster than the radiative lifetime expected on the basis of the nonlocal response theory. The DFWM spectra measured at various time delays clearly indicate the contribution of weakly confined excitons to the ultrafast response. Moreover, in the measurement of excitation-energy dependence, the time-domain signals excited by a controlled spectral width exhibit the variation of the oscillation period and response time. These characteristics are similar to those of the excitation spectral width dependence. From the analysis of oscillatory structures, it is found that the oscillation originates from the interference between weakly confined exciton states. Therefore, we conclude that the overlap of the oscillation due to the interference with the DFWM signal leads to the ultrafast response without any change in the exciton dephasing time. These results imply that the control of the excitation spectral width induces the ultrafast nonlinear optical response of the weakly confined excitons.
©2008 The Physical Society of Japan
URL:
http://jpsj.ipap.jp/link?JPSJ/77/044701/
DOI: 10.1143/JPSJ.77.044701
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