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2017年新型光子,电子和电浆现象材料研讨会
作者: 发布时间:2017-04-28 阅读次数:
 

  会议名称(中文):2017年新型光子,电子和电浆现象材料研讨会 

    会议名称(英文):Symposium ED13—Novel Photonic, Electronic and Plasmonic Phenomena in Materials 

    所属学科:电子工程,光电子学,材料科学基础学科,复合材料 

    开始日期:2017-04-17 

    结束日期:2017-04-21 

    所在国家:美国 

    具体地点:Phoenix, Arizona 

    主办单位:美国材料研究学会 

    摘要截稿日期:2016-10-13 

    联系电话:215-882-0385 

    联系人:Prineha Narang 

    E-MAIL:prineha@caltech.edu 

    会议网站:http://www.mrs.org/spring-2017-call-for-papers-ed13/ 

    会议背景介绍: 

    Nanophotonics and plasmonics present an interesting challenge as they involve competing degrees of freedom and constraints with coupled electrons, photons, and atomic structures. Properties that emerge from correlations between these atomic, electronic and photonic phenomena determine the intermediate length and time scales that can be exploited in applications and devices. This symposium invites abstracts from experimental, theory and simulation efforts in exploring novel photonic, electronic and plasmonic effects in materials, including artificially structured metamaterials and two-dimensional metasurfaces. A particular focus will lie on the interplay between classical and quantum phenomena, and its exploitation for control of materials properties, as well as on plasmonics in 2D materials. 

    Interdisciplinary topics related to physics, materials science and engineering would be connected by invited speakers in order to accelerate the development of these materials toward applications in energy conversion, photodetection, sensing and quantum devices. The closing session will discuss frontiers in correlated photonic, plasmonic and electronic phenomena to motivate new work in this field. 

    征文范围及要求: 

    Topics will include: 

    Theory and calculations of quantum photonic and plasmonic phenomena 

    Electronic structure descriptions of plasmonic nanostructures 

    Mesoscale photonics and metasurfaces 

    Photonic and optoelectronic effects in 2D materials 

    Plasmonic hot carrier generation, spectroscopy and imaging 

    Ultrafast and nonlinear effects in metamaterials and plasmonics 

    Quantum phenomena and realization of quantum information processing 

    Interplay of electronic and photonic effects in plasmon-enhanced catalysis 

    Materials for topological photonics 

    Integration into applications and devices 

    来源:中国学术会议在线 

  

 
 
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