The Japan Society of Applied Physics Pub Date : 2018-11-09 DOI:10.3390/proceedings2131034
N. Hasuike, S. Ochiai, R. Iwakiri, M. Takeda, W. Yoo, T. Isshiki
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引用次数: 2

摘要

本文提出了具有衍射光栅结构的透明导电氧化物作为近红外光谱区表面等离子体共振的激发场。实验证明了掺杂锡的In2O3薄膜具有微米间距衍射光栅,可以激发SPR。在本研究中,我们考虑了光栅间距与光学反射光谱之间的相关性。反射光谱在红外光谱区表现出明显的偏振特性,反射边缘也与光栅的节距相关。这些结果成功地证明了SPR光栅的激发作用,并且可以通过改变光栅在红外区的间距来调谐波长。
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Surface Plasmon Resonances in Sn: In2O3 Thin Films with Diffraction Grating
We newly proposed transparent conductive oxide with diffraction grating structure as an excitation field of surface plasmon resonance working at near-infrared spectral region. We experimentally demonstrated the excitation of SPR using Sn-doped In2O3 films with micro-meter pitched diffraction grating. In this study, we considered the correlation between the grating pitch and the optical reflection spectra. Reflection spectra showed clear polarization properties in infrared spectral region, and the reflection edge has also correlation with the pitch of grating. From these results, the excitation of SPR grating was successfully demonstrated and the wavelength can be tuned by changing the grating pitch in infrared region.
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The Japan Society of Applied Physics
The Japan Society of Applied Physics
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