会议名称(英文): Plasmonics: Metallic Nanostructures and Their Optical Properties XII
所属学科: 等离子体物理,光学,纳米科学与技术
开始日期: 2014-08-17
结束日期: 2014-08-21
所在国家: 美国
所在城市: 美国
具体地点: San Diego, California, United States
主办单位: 国际光学和光子学学会
摘要截稿日期: 2014-02-03
联系电话: +1 360 685 5600
E-MAIL: saral@spie.org
会议网站: http://spie.org/OPN/conferencedetails/plasmonics-metallic-nanostructures
会议背景介绍:
The area of properties of metallic nanostructures and their near field properties and applications is currently undergoing an intense development. The structures and phenomena covered under this topic span broad multidisciplinary interests from fundamental physical properties to applications in nanoscale optics, physics, chemistry, and biomedicine.
征文范围及要求:
Papers are solicited in the following areas:
Plasmonic structure nanofabrication
nanofabrication of metal, metal-semiconductor, and semiconductor plasmonic structures and devices
chemical fabrication (bottom up)
lithographic and nanopatterning fabrication (top down)
materials fabrication
biomimetic and bio-inspired fabrication.
Plasmonic phenomena and characterization, both steady-state and ultrafast
spectroscopies (spectral, time-domain, combined and multidimensional)
local probes, nano-optics, and near field phenomena
plasmon-assisted PEEM and energy-loss spectroscopy and visualization of plasmonic phenomena
nonlinear and coherent optical properties
plasmonic enhanced phenomena: SERS, SEIRA, nonlinear generation, luminescence, including molecules and nanostructured metals
novel plasmonic systems such as graphene
Fano resonances in nanoplasmonic systems
active plasmonics.
Theory, simulation, and design across all subareas
plasmonic phenomena and effects
ultrafast plasmonic effects and coherent control
plasmon polaritonics
surface-enhanced Raman scattering
plasmon-enhanced nonlinear phenomena
luminescence enhancement and quenching
quantum nanoplasmonics: QED effects, plasmon-assisted quantum information, spasing, and nanolasing in plasmonic nanostructures
microscopic theory of plasmonic properties
plasmonic imaging, including probe ultramicroscopies, superlenses, and hyperlenses
novel plasmonic systems such as graphene
nanoplasmonic Fano resonances
active plasmonics theory and design.
Metallic arrays and plasmonic band-gap materials
extraordinary transmission, diffractive and refractive phenomena
plasmon polariton propagation in arrays of metal nanoparticles and metal nanoplasmonic waveguides
low-frequency plasmons and their applications
semiconductor plasmonics
fundamental physics of left-handed (negative-refraction) plasmonic materials.
Plasmonics and plasmonic nanophotonics applications and devices
plasmonic sensors
nanoplasmonic waveguides and resonators
plasmonic nanocircuits; logical nanoscale elements
plasmonic ultramicroscopies and nanoscopic spectroscopies
plasmonics-assisted memory
plasmonic transistors
plasmonic nanolasers and spasers
nanoplasmonic antennas and their applications in nanoscopes, photodetectors, solar cells, and lighting devices
prospective graphene nanoplasmonic devices
sensing based on Fano resonances
modulators and switches based on active plasmonics.
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