Persistent spectral hole-burning in CuBr nanocrystals

T. Kawazoe, Tetsuya Yamamoto, L. Zimin, Y. Masumoto
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Abstract

Persistent hole-burning phenomena in ion-doped glass and organic-molecule-doped organic glass have been well known. In recent years semiconductor nanocrystals have been studied extensively because of their novel optical properties such as large optical nonlinearities, and their possibility for applications, such as lasers, ultrafast optical devices, and so on. However, so far "persistent spectral hole-burning (PSHB)" phenomenon in semiconductor nanocrystals has never been reported until the PSHB phenomenon was observed in CdSe and CuCl nanocrystals in our laboratory. Therefore, we may be able to find the other semiconductor nanocrystals which show persistent hole-burning phenomenon. In this publication, we report the persistent hole-burning phenomenon in CuBr semiconductor nanocrystals embedded in glass. Our experiment shows the spectral hole in CuBr nanocrystals remains for more than 8 hours without any detectable relaxation.
cur纳米晶体中持续光谱烧孔
离子掺杂玻璃和有机分子掺杂有机玻璃中存在着持续的烧孔现象。近年来,半导体纳米晶体因其具有较大的光学非线性等新颖的光学特性,以及在激光、超快光学器件等方面的应用前景而受到广泛的研究。然而,直到我们实验室在CdSe和CuCl纳米晶体中观察到PSHB现象后,半导体纳米晶体中才出现了“持续光谱烧孔”现象。因此,我们可能能够找到其他具有持续烧孔现象的半导体纳米晶体。在这篇文章中,我们报道了嵌入在玻璃中的cur半导体纳米晶体中持续的烧孔现象。我们的实验表明,cur纳米晶体中的光谱空穴可以保持8小时以上,而没有任何可检测到的弛豫。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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