FABRICATION TECHNIQUE AND OPTICAL PROPERTIES OF CARBON-BASED SUPERLATTICE STRUCTURES

机译：碳基超晶格结构的制备技术和光学性能

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C_(60) / amorphous carbon superlattice structures were fabricated by shutter controlled high-vacuum evaporator. Three kinds of films were deposited with different shutter sequences. Designed thickness is [(a-C(4.0 nm)/C_(60)(4.0 nm)) x45 periods], [(a-C(2.8 nm)/C_(60)(2.8 nm)) x45 periods], and [(a-C(0.6 nm)/C_(60)(3.4 nm)) x45 periods], respectively. The periodic structure of resulted films was confirmed by X-ray diffraction (XRD) measurements. From the uv-visible reflectance/transmittance measurements, the blue shift of absorption edge was observed in the #3 superlattice sample [(a-C(0.6 nm)/C_(60)(3.4 nm)) x45 periods], comparing with the #1 superlattice sample [(a-C(4.0 nm)/C_(60)(4.0 nm)) x45 periods]. This result suggests that the effective band gap energy could be controlled by the thickness of each layer of superlattice structure.

机译：通过百叶窗控制的高真空蒸发器制备了C_（60）/非晶碳超晶格结构。三种胶卷以不同的快门顺序沉积。设计厚度为[（aC（4.0 nm）/ C_（60）（4.0 nm））x45个周期]，[（aC（2.8 nm）/ C_（60）（2.8 nm））x45个周期]和[[aC（ 0.6 nm）/ C_（60）（3.4 nm））x45个周期]。通过X射线衍射（XRD）测量来确认所得膜的周期性结构。从uv可见反射率/透射率测量中，与＃1相比，在＃3超晶格样品[（aC（0.6 nm）/ C_（60）（3.4 nm））x45周期]中观察到吸收边的蓝移。超晶格样品[（aC（4.0 nm）/ C_（60）（4.0 nm））x45周期]。该结果表明，有效带隙能量可以由超晶格结构的每一层的厚度来控制。

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《Seventeenth European Photovoltaic Solar Energy Conference》|2002年|p.314-316|共3页
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N. Kojima; M. Yamaguchi;
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正文语种
中图分类能源与动力工程;
关键词
carbon; quantum well; optical properties;

机译：碳;量子阱;光学性质;

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FABRICATION TECHNIQUE AND OPTICAL PROPERTIES OF CARBON-BASED SUPERLATTICE STRUCTURES

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