会议名称(中文):2014年SPIE光子光纤和晶体器件研讨会
会议名称(英文):Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications VIII
所属学科:光学,光电子学
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
主办单位: 国际光学和光子学学会
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议题:
[ 组织结构 ]
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姓名 职务 简介 演讲题目
[ 重要日期 ]
摘要截稿日期: 2014-02-03
[ 会务组联系方式 ]
联系人:
联系电话: +1 360 685 5600
传真:
E-MAIL: saral@spie.org
通讯地址:
邮政编码:
会议注册费:
会议网站: http://spie.org/OPO/conferencedetails/photonic-fiber-crystal-devices
会议背景介绍:
The Photonic Fibers and Crystal Devices Conference aims to establish a well-defined forum with focus on innovations of photonic, optoelectronic, and optical devices that depend essentially on advancement in materials processing, optical and photonic property, wave mixing, and photorefractive phenomena. This conference is a continuation of the successful SPIE conferences on Photorefractive Fiber and Crystal Devices with strengthened topics on crystal growth of nonlinear optic materials. The scope of applications this conference encompasses covers a broad range from components to systems architectures in optical signal processing, optical storage, optical networks and communications, and photorefractive material-based novel photonic devices. The objective of this conference is to promote scientific interaction that bridges advancement in photonic fibers and bulk crystal materials with innovations in photonic technology and device development.
Sessions will focus on the latest achievements on both photonic materials and device technologies that can lead to further advances in the communication, sensing, data storage, display, biomedical, and defense applications. The status and future challenges in these areas also will be reviewed by invited speakers.
征文范围及要求:
Authors are encouraged to submit papers addressing the following session topics:
Photonic fibers and crystal materials:
novel photorefractive, electro-optic, and nonlinear optical fibers and crystals including glasses, semiconductors, ferroelectrics, polymeric, and magneto-optic materials
crystal growth, defect and doping control, quasi phase matching and domain manipulation
photonic fibers, 2 and 3-dimensionally engineered photonic crystal, and photonic bandgap materials
photosensitivity and spectral responses, physical and optical characterizations
experiments and theory that elucidate correlations between materials doping and defect-structure with photonic properties
chalcogenide photonics.
Photonic devices and applications:
components for optical communication, sensing, and data storage, including transmission, amplification, modulation, detection, dispersion management, switching, data handling, and packaging
integrated optical components, nonlinear frequency converters, diffractive devices, three-dimensional optical memory, and dynamic memories
dynamic sensing for chemical, harsh environment, biophotonic, and defense applications
adaptive optical devices utilizing coupled effects such as electro-optic, elasto-optics, photostriction, mageto-optics, and pyro-optics
novel free-space and waveguiding optical components, devices and subsystems including supercontinuum lasers for photonic computing, optomechanics, interconnects, switching, and packaging of photonic processors
holographic data storage, holographic miniaturization of functional mapping, holographic image amplification, volume holographic imaging
phonic bandgap switches and modulation-based switching devices
photonic devices for energy conversion and harvesting
electromagnetics (nonlinear phenomena and propagation of light in nonlinear crystals/optical media). |
