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首页> 外文期刊>The journal of physical chemistry, C. Nanomaterials and interfaces >Randomly Distributed Plasmonic Hot Spots for Multilevel Optical Storage
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Randomly Distributed Plasmonic Hot Spots for Multilevel Optical Storage

机译:用于多级光存储的随机分布的等离子体热点

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摘要

Multilevel optical storage is regarded as one efficient way to achieve higher capacity. In this paper, a kind of multilevel optical storage is presented by encoding the plasmonic hot spots among coupling gold nanorods (GNRs). The hot spots not only lower the recoding energy, but enhance two-photon-induced luminescence (TPL) intensity of the GNRs adjacent to hot spots significantly. From the numerical simulations based on finite-difference time-domain technique, it can be seen that the existence of hot spots expands the range of TPL intensity and makes a steeper function of TPL intensity distribution than isolated GNRs. The multilevel optical storage is performed experimentally in the GNR poly(vinyl alcohol) (PVA) films with optical density (OD) = 3, 12, and 24. The six-level optical storage with high quality could be fulfilled with ultralow energy of only a few picojoule per pulse in the GNR-PVA films of OD = 12. This work can be the building blocks for the cold data storage in Big Data era.
机译:多级光学存储被视为实现更高容量的一个有效方式。在本文中,通过在耦合金纳米棒(GNRS)中的等级热点来呈现一种多级光学存储。热点不仅降低了读取能量,而且显着地增强了与热点相邻的GNR的两光子诱导的发光(TPL)强度。根据基于有限差分时域技术的数值模拟,可以看出热点的存在扩展了TPL强度的范围,并使TPL强度分布的陡峭函数比隔离的GNRS。通过光密度(OD)= 3,12和24的GNR聚(乙烯醇)(PVA)薄膜实验实验进行多级光学存储器。只有高质量的六级光学存储器只能实现高质量的超级能量OD = 12的GNR-PVA薄膜中的几个Picojoule脉冲= 12.这项工作可以是大数据时代的冷数据存储的构建块。

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  • 作者

    Chu Yuhui; Xiao Hongmei; Wang Guang; Xiang Jin; Fan Haihua; Liu Haiying; Wei Zhongchao; Tie Shaolong; Lan Sheng; Dai Qiaofeng;

  • 作者单位

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Sch Chem &

    Environm Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

    South China Normal Univ Guangdong Prov Key Lab Nanophoton Funct Mat &

    Dev Sch Informat &

    Optoelect Sci &

    Engn Guangzhou 510006 Guangdong Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 物理化学(理论化学)、化学物理学;
  • 关键词

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