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量子等离激元管中窥豹
引用本文:王冬利,曾长淦.量子等离激元管中窥豹[J].低温物理学报,2019,41(1):1-11.
作者姓名:王冬利  曾长淦
作者单位:国际功能材料量子设计中心,合肥微尺度物质科学国家研究中心,安徽合肥230026;物理系,中国科学技术大学,安徽合肥230026;国际功能材料量子设计中心,合肥微尺度物质科学国家研究中心,安徽合肥230026;物理系,中国科学技术大学,安徽合肥230026
基金项目:国家自然科学基金;国家重点研发计划
摘    要:等离激元是金属中自由电子的集体振荡,其在物理,生物、化学、能源、信息等领域具有重要的应用前景.近些年来对等离激元量子效应研究的深入开展使得等离激元研究迈入了新阶段.本文首先简要介绍了等离激元的两个基本特性:光压缩效应和局域电场增强效应;随后回顾了量子等离激元方面的最新的进展,包括量子纠缠效应,量子尺寸效应,量子遂穿效应,等离激元在台阶势垒处的反射与激发,等离激元对电子相干效应的增强;最后对量子等离激元研究进行了总结和展望.

关 键 词:等离激元  光压缩  局域电场增强  量子等离激元  量子纠缠  量子隧穿  尺寸效应  台阶势垒  电子相干长度

Glimpses of Quantum Plasmonics
WANG Dongli and ZENG Changgan.Glimpses of Quantum Plasmonics[J].Chinese Journal of Low Temperature Physics,2019,41(1):1-11.
Authors:WANG Dongli and ZENG Changgan
Institution:International Center for Quantum Design of Functional Materials, Hefei National Laboratory for Physical Sciences at the Microscale, Hefei Anhui230026, China;Department of Physics, University of Science and Technology of China, Hefei Anhui230026, China and International Center for Quantum Design of Functional Materials, Hefei National Laboratory for Physical Sciences at the Microscale, Hefei Anhui230026, China;Department of Physics, University of Science and Technology of China, Hefei Anhui230026, China
Abstract:Plasmon is the collective oscillation of electrons in metals , which possesses broad application prospects in physics, biology, chemistry, energy, information and so on. Recently, plasmonic behaviors have been proposed and observed in the quantum regime, opening a new avenue of research on quantum plasmonics. In this review, we first introduce some basic properties of plasmon as well as their relevant applications. Next, we review some latest progresses on quantum plasmonics, including quantum entanglement, quantum size effect, quantum reflection at the potential steps, and plasm on enhancement of quantum coherence. Finally, we give a summary and outlook of quantum plasmonics.
Keywords:plasmon  light compression  enhancement of local electric field  quantum plasmonics  quantum entanglement  size effect  potential step  electron coherence length
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