5月22日“ALAT2017年國際前瞻激光技術(shù)大會”將在深圳大學(xué)舉辦。本次大會由中國光學(xué)光電子行業(yè)協(xié)會激光分會、西南技術(shù)物理研究所、廣東省激光產(chǎn)業(yè)技術(shù)創(chuàng)新聯(lián)盟、深圳大學(xué)等將聯(lián)合舉辦,也是ALAT 2017第十一屆亞洲(深圳)國際激光應(yīng)用技術(shù)論壇的第一子論壇。
大會圍繞“前瞻激光、光子學(xué)技術(shù)”核心主題,分成兩個會場,探討當(dāng)前國內(nèi)外激光與光電子技術(shù)領(lǐng)域的前沿技術(shù)等熱點問題,介紹相關(guān)領(lǐng)域最新技術(shù)發(fā)展?fàn)顩r,促進國內(nèi)外前沿技術(shù)的交流和發(fā)展。
主辦單位:
中國光學(xué)光電子行業(yè)協(xié)會激光分會、西南技術(shù)物理研究所、廣東省激光產(chǎn)業(yè)技術(shù)創(chuàng)新聯(lián)盟
承辦單位:
《激光技術(shù)》編輯部、深圳大學(xué)、中山大學(xué)中法核工程與技術(shù)學(xué)院、廣東省激光行業(yè)協(xié)會、深圳技術(shù)大學(xué)籌備辦公室
合作媒體:
《激光制造商情》月刊、《應(yīng)用激光》雜志社、激光制造網(wǎng)
會議日程(以下是第二分場 / Section B的演講人和演講內(nèi)容)
特邀嘉賓
李晁逵Chao-Kuei Lee
臺灣中山大學(xué) National Sun Yat-sen University
演講題目:
硅光子學(xué)非線性波導(dǎo)的新材料:從光源到全光學(xué)調(diào)制
Novel material of nonlinear waveguide for Si photonics : from light source to all optical modulation
摘要 Abstract
To achieve high bit rate signal processing in the integrated optical system, the ultrafast all optical modulator is regarded as the key element in the modern optical communication system. Up to date, number of material systems, such as Si, SiO, SiN and so on, have been chosen for nonlinear optical processing in waveguide photonics fields. However, the physical limitation on application is on the inevitable linear or nonlinear absorption performance.
周治平 Zhiping Zhou
北京大學(xué) Peking University
演講題目:
硅基節(jié)能光互連技術(shù)的最新發(fā)展
Recent progress on silicon based energy-saving optical interconnects
摘要 Abstract
This talk will present our latest research progress on low energy consumption devices for optical interconnects. We proposed a complete analytical electro-optic theory of lumped silicon modulators. Comprehensive analysis revealed the speed limitation, and single-drive configuration was introduced to substantially improve modulation speed. More than an order of magnitude energy reduction compared with traveling wave modulators was achieved at 28 Gbaud. We also demonstrated an athermal flat-top silicon Mach-Zehnder (de)multiplexer which eliminated the need for thermal control, achieving energy-free multiplexing for WDM systems.
藤原康文 Yasufumi Fujiwara
日本大阪大學(xué) Osaka University
演講題目:
使用Eu摻雜的GaN挑戰(zhàn)高效波長穩(wěn)定的紅色發(fā)光二極管制作
Challenge to highly efficient wavelength-stable red light-emitting diodes using Eu-doped GaN
摘要 Abstract
Since the invention of blue and green light-emitting diodes (LEDs), one of the targets of researchers has been to extend emission to shorter and longer wavelengths. We have focused on Eu ions that have been widely used as an activator for red phosphor, and have succeeded in developing the world’s first red LED that operates at room temperature using Eu-doped GaN (GaN:Eu) as an active layer. The LED can exhibit a sharp, intense, and temperature-independent emission due to the intra-4f shell transitions of Eu ions, which has a huge potential for GaN-based monolithic full-color LED displays. Light output power of the LED has been growing steadily up to sub-milli watts in these years. In my talk, current status of the red LED and strategies for further enhancement of the light output power will be reviewed.
田中 有Yu Tanaka
日本光子學(xué)—電子學(xué)技術(shù)研究聯(lián)合機構(gòu)
Photonics Electronics Technologies Research Association (PETRA), Japan
演講題目:
基于硅光子技術(shù)的光收發(fā)器“光I / O核”
Optical transceiver "optical I/O core" based on silicon photonics technologies
摘要 Abstract
A chip-scale optical transceiver, “optical I/O core”, has been developed. The "optical I/O core", 5× 5 mm2 in size, is composed of silicon-photonics-based integrated optical circuit, flip-chip-bonded lasers, and Drv./TIA. It provides a maximum transmission capacity of 300 Gbps, and consumes a low power of 5 mW/Gbps. A 25-Gbps/ch error-free transmission was observed. In addition, a wavelength-division-multiplexing technologies for higher amount of transmission will be also discussed.
B. M. A. Rahman
英國倫敦城市大學(xué) City University London
演講題目:
光子器件的設(shè)計和優(yōu)化概述
An overview on the design and optimisation of photonic devices
摘要 Abstract
Advancement in performance of photonic devices can only lead to better optical systems of tomorrow. A review on the design and optimisation of photonics devices by using the frequency domain modal solution, junction analysis and beam propagation methods and additionally time-domain approach, but all based on the numerically efficient finite element method will be presented. Numerically simulated results for various photonic devices such as uniform optical waveguides, photonic crystal fibres, high-speed optical modulators, spot-size converters, compact power splitters, metal-clad terahertz waveguides, photonic crystals and nonlinear acousto-optical interactions in optical waveguide will also be presented.
阮雙琛 Shuangchen Ruan
深圳大學(xué) Shenzhen University
演講題目:
基于ZnO-石墨烯超晶格和單壁碳納米管的激光產(chǎn)生
The lasers generation based on ZnO–graphene superlattice and single-walled carbon nanotube
摘要 Abstract
The generation of nanolaser is a crucial step for on-chip optical communications, medical imaging and so on. Here, we report a thresholdless, tunable Raman nanolaser based on Selective Surface Plasmon Amplification by Stimulated Raman Scattering (SSPASRS). The surface Plasmon is formed between atomic-scale ZnO layer and grapheme layer, in which ZnO layer act as gain medium for Raman scattering. The special geometry, in which atomic-thick gain medium are in the interior of the conducting medium of surface Plasmon, is crucial for highly directional preferred selection rule of Raman active vibration modes for thresholdless Raman nanolaser.
張守進 Shoou-Jinn Chang
臺灣成功大學(xué) Natio
nal Cheng Kung University
演講題目:
通過激光打孔和切割提高GaN基發(fā)光二極管的輸出功率
Enhancing the output power of GaN-based light-emitting diodes by laser drilling and cutting
摘要 Abstract
In this study, we propose two methods using laser to enhance output power of GaN-based light-emitting diodes (LEDs). The first method is using laser to form a light guiding structure on sapphire substrate. The second method is using laser to drill air-voids inside the sapphire substrate. It was found that both methods can effectively enhance output power of GaN-based LEDs. Detailed fabrication procedures of these two methods will be reported. The electro-optical properties of the fabricated devices will also be discussed.
口頭報告
代千、石柱、何偉、覃文治、謝和平、宋海智
Qian Dai, Zhu Shi, Wei He, Wen-Zhi Qin, He-Ping Xie, Hai-Zhi Song
西南技術(shù)物理研究所
Southwest Institute of Technical Physics
演講題目:
高靈敏度InGaAs固態(tài)倍增器技術(shù)研究
Study on high sensitivity InGaAs solid-state multiplier technology
摘要 Abstract
In order to improve the sensitivity of indium gallium arsenide (InGaAs) avalanche photodiode, thereby improving the ranging distance of the laser rangefinder receivers, a high sensitivity InGaAs solid-state multiplier is designed and fabricated to achieve weak light detection, based on multi-pixels micro channel technology.
A. Abudurexiti, K.Aikanbaier
新疆大學(xué)物理與技術(shù)學(xué)院
School of Physics and Technology, Xinjiang University
超強激光等離子體凹面靶標(biāo)相互作用中自生磁場和質(zhì)子加速的研究
Study self-generated magnetic field and proton acceleration in the interaction of ultra-intense laser-plasma concave target
摘要 Abstract
For studying the mechanism of formation of self-generated magnetic field and proton generation in laser plasma interaction, this article based on the Maxwell’s equation applies the theoretical analysis and numerical simulation. We studied the physical processes of self-generated magnetic field and proton acceleration in the interaction between ultra short laser pulse and plasma concave target, and discussed the time evolution relationship of the distribution of self generated magnetic field induced by the non-parallel property of the temperature gradient and density gradient and proposed the laser-driven proton acceleration in plasma concave target irradiated by ultra short laser pulses with relativistic intensities.
陳劍、楊赟秀、曾倫、咼長冬、孔繁林、余麗波、宋海智
Jian CHEN, Yunxiu YANG, Lun ZENG, Changdong GUO, Fanlin KONG, Libo YU, Haizhi SONG
西南技術(shù)物理研究所
Southwest Institute of Technical Physics
電子科技大學(xué)基礎(chǔ)與前沿研究院
Institute of Fundamental and Frontier Sciences, University of Electronic Science and Technology
演講題目:
硅PIN陣列的混合集成光電探測器
Hybrid integrated photodetector of silicon PIN array
摘要 Abstract
In this study, we investigated high-performance hybrid integrated photodetector of silicon PIN array for realizing the integration of receiving and transform of the incident light. It is seen that the investigated photodetector has many excellent performances such as high responsivity, high speed, low crosstalk, low noise, strong anti-interference capacity and etc, which make it a prospective device to be utilized in laser beam detecting, spectrophotometer, etc.
蔡和、王浟、安國斐等
He Cai, You Wang, Guofei An et al.
西南技術(shù)物理研究所
Southwest Institute of Technical Physics
演講題目:
具有MOPA結(jié)構(gòu)的1.617 µm激光器理論分析
Theoretical analyses of a 1.617 µm laser with a MOPA configuration
摘要 Abstract
In this study, we theoretically analyze the amplification features of a 1.617 µm Er:YAG seed laser by using a multiple MOPA configuration. In the simulation, a kinetic model is established to investigate how the doping concentration, crystal length, and pumping power affect the amplification efficiency of a seed laser. The results would be helpful to construct a feasible 1.617 µm laser system.
謝慧玲、朱克云、鄭佳鋒、張杰、周鼎富、范琪、歐映瑜
Huiling Xie, Keyun Zhu, Jiafeng Zheng, Jie Zhang, Dingfu Zhou, Qi Fan, Yingyu Ou
成都信息工程大學(xué)大氣科學(xué)學(xué)院
College of Atmospheric Science, Chengdu University of Information Technology
西南技術(shù)物理研究所
Southwest Institute of Technical Physics
演講題目:
使用激光雷達檢測和分析非降水邊界層
Detection and analysis of boundary layer of non-precipitation by a lidar
摘要 Abstract
Atmospheric boundary layer is about 1 ~ 2km above the earth, which is the key area of the interaction of the earth's circle, and it is the main place of human life. Thus it is significant to research the haze in this area. Lidar can provide the precise low-altitude three-dimensional wind field information, and it is a new instrument to detect the variation of atmospheric boundary layer. The non-precipitation weather is an important meteorological conditions of environmental pollution caused by haze. In this paper, we analyze the stream field characteristics of the atmospheric boundary layer under non-precipitation conditions by using the data from July to September in 2015 of the Shanhaiguan which are measured with a lidar form Southwest Institute of Technical Physics.
范琪、朱克云、鄭佳鋒、張杰、周鼎富、謝慧玲、歐映瑜
Qi Fan, Keyun Zhu, Jiafeng Zheng, Jie Zhang, Dingfu Zhou, Huiling Xie, Yingyu Ou
成都信息工程大學(xué)大氣科學(xué)學(xué)院
College of Atmospheric Science, Chengdu University of Information Technology
西南技術(shù)物理研究所
Chengdu Southwest Institute of Technical Physics
演講題目:
激光雷達用于航空氣象學(xué)中的風(fēng)切變識別
Wind shear identification for applied in aviation meteorology with a Lidar
摘要 Abstract
At present, identification of low-level windshear by lidar in china is still in its infancy. So it is of great significance to study the identification algorithm. based on the actual demand of aviation flight service, in this paper, we propose the algorithm of low-level windshear under different detection modes by combining with low-level windshear meteorological features and lidar detection characteristics.
楊建清、羅積軍、徐軍、孫琦云、王婷
Jian-qing YANG, Ji-jun LUO, Jun XU, Qi-yun SUN, Ting WANG
火箭軍工程大學(xué)
College of Science, Rocket Force University of Engineering
演講題目:
基于雨滴分布數(shù)據(jù)庫的近紅外激光衰減研究
Study on near infrared laser attenuation based on the distribution database of raindrops
摘要 Abstract
Near-infrared laser would be attenuated relatively largely by rainfall , and then “all-weather application” of near-infrared equipments would be also affected. In view of this problem, in this paper, based on the establishment of two elements function models of distribution of raindrops, a method of establishing the database of the distribution of raindrops was proposed.
會務(wù)費:
(會務(wù)費同時適用ALAT任意一場會議, 包含午餐、茶歇、禮物和會議資料)
2017年5月15日前600元/人
2017年5月15日后及現(xiàn)場注冊800元/人
學(xué)生五折
同一單位組團10人以上半價
大會秘書處:
(1)廣東省激光產(chǎn)業(yè)技術(shù)創(chuàng)新聯(lián)盟秘書處 廣東省東莞市旗峰路162號中僑大廈B座1505-1506室 莫芳蕾
電話:0769-22381699 手機:15626864117 郵箱: samantha@laserfair.com
(2)《激光技術(shù)》編輯部 四川省成都市人民南路4段7號西南技術(shù)物理研究所
電話:028-68011091 郵箱: jgjs@sina.com
(3)深圳大學(xué)光電工程學(xué)院 廣東省深圳市南海大道3688號深圳大學(xué)梁華偉
電話:0755-86951220 郵箱:hwliang@szu.edu.cn