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Reduced Photoconductivity Observed by Time-Resolved Terahertz Spectroscopy in Metal Nanofilms with and without Adhesion Layers

机译：时间分辨太赫兹光谱法在具有和不具有粘附层的金属纳米膜中观察到的光电导率降低

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摘要

Non-contact, optical time-resolved terahertz spectroscopy (TRTS) has been used to study the transient photoconductivity of nanometer-scale metallic films deposited on fused quartz substrates. Samples of 8 nm thick gold or titanium show an instrument-limited (ca. 0.5 ps) decrease in conductivity following photoexcitation due to electron-phonon coupling and subsequent increased lattice temperatures which increases charge carrier scattering. In contrast, for samples of 8 nm gold with a 4 nm adhesion layer of titanium or chromium, a ca. 70 ps rise time for the lattice temperature increase is observed. These results establish the increased transient terahertz transmission sign change of metallic compared to semiconductor materials. The results also suggest nanoscale gold films that utilize an adhesion material do not consist of distinct layers.

机译：非接触式光学时间分辨太赫兹光谱（TRTS）已用于研究沉积在熔融石英衬底上的纳米级金属膜的瞬态光电导性。 8 nm厚的金或钛样品在光激发后由于电子-声子耦合和随后增加的晶格温度（增加了载流子散射）而显示出仪器极限（约0.5 ps）的电导率下降。相比之下，对于具有4 nm钛或铬粘附层的8 nm金的样品，其ca观察到晶格温度升高的上升时间为70 ps。这些结果确定了与半导体材料相比，金属的瞬态太赫兹传输符号变化增加。结果还表明，利用粘附材料的纳米级金膜不包含不同的层。

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期刊名称 Applied Physics Letters
作者
Brian G. Alberding; Gary P. Kushto; Paul A. Lane; Edwin J. Heilweil;
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作者单位

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年(卷),期 -1(108),22
年度 -1
页码 223104
总页数 10
原文格式 PDF
正文语种
中图分类病理学;
关键词
Metal nanofilms Gold Chromium Titanium Time-resolved Terahertz Spectroscopy electron-phonon coupling carrier dynamics alloy adhesion layer;

机译：金属纳米膜;金;铬;钛;时间分辨太赫兹光谱;电子-声子耦合;载流子动力学;合金;粘附层;

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专利

1. Reduced photoconductivity observed by time-resolved terahertz spectroscopy in metal nanofilms with and without adhesion layers [J] . Brian G. Alberding, Gary P. Kushto, Paul A. Lane, Applied Physics Letters . 2016,第22期

机译：通过时间分辨太赫兹光谱法观察到的在具有和不具有粘附层的金属纳米薄膜中光电导率降低
2. Competition between Free Carriers and Excitons Mediated by Defects Observed in Layered WSe_2 Crystal with Time-Resolved Terahertz Spectroscopy [J] . Chuan He, Lipeng Zhu, Qiyi Zhao, Advanced Optical Materials . 2018,第19期

机译：时间分辨太赫兹光谱法观察层状WSe_2晶体中的缺陷介导的自由载体与激子之间的竞争
3. Metal-Organic Framework Photoconductivity via Time-Resolved Terahertz Spectroscopy [J] . Pattengale Brian, Neu Jens, Ostresh Sarah, Journal of the American Chemical Society . 2019,第25期

机译：通过时间分辨太赫兹光谱学进行金属有机框架的光电导
4. Terahertz power enhancement by improving metal adhesion layer of plasmonic photoconductive sources [C] . Deniz Turan, Sofia Carolina Corzo García, Enrique Castro-Camus, Conference on Lasers and Electro-Optics . 2017

机译：通过改善等离子体光电导源的金属粘附层来提高太赫兹功率
5. Semiconductor nanocrystals and nanocrystal arrays: Synthesis, characterization, and time-resolved terahertz spectroscopy photoconductivity measurements. [D] . Murphy, James Edward. 2006

机译：半导体纳米晶体和纳米晶体阵列：合成，表征和时间分辨太赫兹光谱光电导率测量。
6. Static and Time-Resolved Terahertz Measurements of Photoconductivity in Solution-Deposited Ruthenium Dioxide Nanofilms [O] . Brian G. Alberding, Paul A. DeSario, Christopher R. So, -1

机译：溶液沉积二氧化钌纳米膜中光电导率的静态和时间分辨太赫兹测量。
7. MetalOrganic Framework Photoconductivity via Time-Resolved Terahertz Spectroscopy [O] . -1

机译：通过时间分辨的太赫兹光谱光电导光光电导光

Reduced Photoconductivity Observed by Time-Resolved Terahertz Spectroscopy in Metal Nanofilms with and without Adhesion Layers

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