2018“中国光谷”国际光电子信息产业高峰论坛将于11月14日盛大启幕

2018“中国光谷”国际光电子信息产业高峰论坛将于11月14日盛大启幕。论坛聚焦光电子信息领域全产业链上的原创性和颠覆性科技成果和核心技术,从国际前沿趋势、核心技术创新、跨界产业融合等多个角度,围绕光网络、光互联、5G、智能制造、先进材料等光电子信息应用方向,本次论坛拟邀参会人员预计达1200人。

快来看看有哪些该领域专家,他们又将带来什么主题报告吧。

论坛时间

2018年11 月 14 日 9:40 — 12:30

论坛地点

武汉·中国光谷科技会展中心三楼 光谷厅

论坛主持人

余少华

中国工程院院士

中国信息通信科技集团总工

主持人介绍

余少华,中国工程院院士,光纤传输系统与网络技术专家。现任中国信息通信科技集团副总经理,中国通信学会副理事长、学术委员会副主任、光通信委员会主任委员,国家863计划网络与通信主题专家等。曾任国家重点基础研究发展计划(973计划)“超高速超大容量超长距离光传输基础研究”首席、国际电信联盟ITU-T光和接入网研究组(SG15)副主席等。他长期从事光纤传输系统和通信网络技术研究,是我国电信传输网SDH与互联网融合的开拓者之一。他在国际上率先发明以太网与SDH网融合(两网融合)传送的LAPS(链路接入规程-SDH)系统设备装置和城域网MSR(多业务环)系统设备装置,均实现产业化。他提出并主导制定LAPS和MSR等三项国际电联标准,实现百年国际电信ITU-T史上,中国在制订和掌握电信技术标准零的突破。

演讲嘉宾

常瑞华

美国工程院院士

美国加州大学伯克利分校教授

清华-伯克利深圳学院(TBSI)共同院长

个人简介

常瑞华,2018年2月7日入选美国工程院院士;1992-1996,斯坦福大学电子工程系助理教授、副教授;1996至今,加州大学伯克利分校电子工程与计算机科学系教授。历任电机系主任、光电纳米技术研究中心主任等职位。主要研究领域:纳米结构材料的合成、性质和器件,宽带光通信,VCSEL,光学微机电结构。

演讲时间:10:00 – 10:30

演讲主题:VCSEL Array – Catalyzing 3D Sensing

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演讲摘要:Vertical cavity surface emitting lasers (VCSELs) have long been predicted as low-cost enabling laser sources for many applications including optical communications, sensing and imaging。 Traditional VCSELs comprises a quantum well active region sandwiched between two highly reflective mirrors, all epitaxially grown on a GaAs or InP substrate。 With the laser emitting in the surface normal direction, VCSELs enjoy the advantages offered by LEDs in wafer scale processing and easy of packaging。 In contrast to LEDs, VCSEL emits well collimated light with a narrow divergence and a narrow spectrum, which make them idea for optical imaging and sensing。

The mirrors are typically distributed Bragg reflectors (DBRs) with many tens layers of epitaxy layers with alternating refractive indecies。 Recently we reported the use of a single layer high index contrast near-wavelength gratings (HCG) to replace the hundred-layered DBR in a VCSEL structure。 In this talk, I will discuss inventions and advances in VCSELs that have led to recent global deployment of commercial applications including 3D sensing, LIDAR and optical coherent tomography applications。 I will also discuss future prospects for advanced applications。

Leo hans Lehmann

国际电信联盟电信标准化部第十三研究组 主席

个人简介

Leo Lehman, 博士,现任国际电信联盟电信标准化部第十三研究组主席。作为国际知名的专家,Leo Lehman先生已从事电信事业达24年。他曾在电信设备制造企业和电信运营商担任网络工程、系统设计和业务领域的高级管理职务。作为NGN和未来网络领域的杰出专家,Leo Lehman先生曾为很多学术会议做出重大贡献,他也曾获得学术会议“未来网络和业务的革新”的最佳论文奖。

演讲时间:10:30 – 11:00

演讲主题:“ITU-Study Group 13, Pioneering Telecommunication Networks from POTS until Future Networks beyond 5G”.

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演讲摘要:Study Group 13 (SG13) is one of the groups of the Standardization sector of the International Telecommunication Union (ITU) which already exist for many years。 Its lead mandate is related to Future Networks including IMT2020 5G, Cloud Computing and Trusted Network Infrastructures (TNI)。 SG13 studies and deliveries also include important recommendations related to data aware and data driven networking, big data and the support of machine learning based means for future networks including 5G。 While IMT2020/5G systems becomes now more and more deployable, SG13 has already started to consider use cases, requirements and architectural aspects of future networks beyond 5G by a dedicated subgroup, the Focus Group on Technologies for Network 2030。

This presentation starts with a short introduction into mandate and structure of SG13 followed by a quick look back to the groups Next Generation Network history。 It gives an overview on already delivered standards related to its lead responsibilities, in particular IMT2020/5G, cloud Computing and TNI。 Furthermore the presentation will describe some examples of currently ongoing work, including horizontal/ vertical slicing, fixed/ mobile convergence and data driven networking。

Graham Reed

英国皇家工程院院士

英国南安普敦大学教授

个人简介

Graham Reed教授是全球硅光子领域公认的先驱和学术大家。早在1990年代早期他就开始从事硅光子领域的研究,是英国最早从事硅光的学者之一。他的学生Andrew Rickman是著名的Bookham、Kotura和Rockley Photonics公司的创办人,也是硅光领域的开拓者之一。Graham Reed教授是全球重要的硅光子学会议的固定邀请嘉宾,曾在多个国际会议委员会任职。2006年以来,他一直担任美国西部光电展硅光子研讨会的共同主席;2011年担任在伦敦皇家学会举办的IEEE Group IV Photonics会议的共同主席。

演讲时间:11:00 – 11:30

演讲主题:Synergistic design of Silicon modulators and drivers

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演讲摘要:Integration of photonics and electronics is one of the key subjects for the development of silicon photonics. We believe this approach should include the synergistic design concept, in which the photonics and electronics devices should be closely co-designed. In this paper the co-design of depletion silicon Mach-Zehnder modulator, and the corresponding CMOS driver is discussed, including changing the modulator geometry to facilitate monitoring of the electrical signal quality reaching the modulator, and adjustment of the system operating parameters accordingly.

洪明辉

新加坡工程院院士

新加坡国立大学终身教授

个人简介

新加坡国立大学终身正教授、光科学与技术中心主任,新加坡工程院士,曾获美国光学学会院士(OSA Fellow)和国际光学工程学会院士(SPIE Fellows)称号。洪明辉教授是激光光学领域的领军人物,长期从事激光微纳加工及检测技术研究,先后主持了50多项工业科研项目,拥有42项美国、德国、新加坡等国授予专利,其中24项已获发明授权,1项已经产业化生产。洪明辉教授是中国国家自然科学基金委员会 ( 创新研究群体项目) 、973 计划和重大科学研究计划申报项目、欧洲科学基金会支助科研项目和学术会议的评委等。

演讲时间:12:00 – 12:30

演讲主题:Light for Advanced Manufacturing

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演讲摘要:Light plays an important role in advanced manufacturing。 Being as fast as light, it provides the maximum speed allowing for rapid optical sensing and data commination。 Being as accurate as light, it offers many reliable approaches to fabricate current digital devices in micro- even Nano-scale。 Being as colorful as light, it serves as the basis for optical imaging and materials real-time characterization。 The unique properties of light are achieving the varieties of innovations and bringing about plenty of new opportunities。

In this talk, the beauty of light will be highlighted in both the scopes of high-power applications, such as laser micro-processing and Nano-fabrication for thin silicon wafer processing, femtosecond laser precision engineering of man-made bio-skins and high speed micro-hole drilling, lotus-leave-like super-hydrophobic structures and metamaterials fabrication; as well as low-power applications, including optical Nano-imaging and laser diagnostics of cracks inside steel structures and gas leakage detection。

Laser cleaning of surface contaminations, laser color marking of metal surfaces, portable SERS Raman spectroscope, and optical microsphere nanoscope being developed in our Optical Science and Engineering Centre in NUS will be case studied to emphasize the importance of technology commercialization for new industries。

Dieter Bimberg

德国科学院

俄罗斯科学院

美国工程院

美国国家发明院院士

德国柏林工业大学教授

个人简介

Dieter Bimberg教授是德国柏林工业大学纳米光子中心主任和应用固体物理研究所所长。他是量子点激光器的发明人之一,发表论文1500余篇,被引51000余次 (H-index 101),发明专利26项,编写了7本著作。他曾获得俄罗斯国家科技奖,IOP和DPG联合颁发的马克斯-玻恩奖。他是德国科学院院士、俄罗斯科学院院士、美国工程院院士以及美国国家发明院院士。同时也是美国光学学会(OSA)和电气与电子工程师协会(IEEE)的会员。

演讲时间:11:30 – 12:00

演讲主题:Nanophotonics for a Green Internet

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演讲摘要:The energy required to transmit information as encoded optical and electrical data bits within and between electronic and photonic integrated circuits, within and between computer servers, within and between data centers, and ultimately nearly instantly across the earth from any one point to another clearly must be minimized。 This energy spans between typically tens of picojoules-per-bit to well over tens of millijoules-per-bit for the intercontinental distances。 We seek to meet the exploding demand for information within the terrestrial resources available but more importantly as a common-sense measure to reduce costs and to become stewards of a perpetual Green Internet。

The concept of a Green Internet implies a collection of highly energy-efficient, independent, and ubiquitous information systems operating with minimal impact on the environment via sustainable energy sources。 A key enabling optical component for the Green Internet is the vertical-cavity surface-emitting laser (VCSEL)。 Our research on energy-efficient VCSELs for application as light-sources for optical interconnects and optical fiber data communications between 850 and 980 nm is reviewed。 We present VCSEL designs, design principles, and operating methods that enable data communication systems capable of error-free operation at bit rates exceeding 50 gigabits-per-second with energy efficiencies approaching 100 femtojoules-per-bit。 Yet unpublished results for 200+ Gbit/s optical interconnects based on wavelength multiplexing are presented。

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