2017中俄激光精密微纳制造前沿技术研讨会

作者: 时间:2017-10-31 点击数:

华中科技大学

Huazhong University of Science and Technology

2017中俄激光精密微纳制造前沿技术研讨会

2017 Sino-Russia Workshop on Advanced Technologies for Laser Precision Micro-Nano Manufacturing

会议手册

Guide Book

时间:2017年11月03日(全天)

Time:November 3rd, 2017 (Whole day)

地点:华中科技大学八号楼三楼报告厅

Site:The Lecture Hall on the 3rd floor of Building 8, HUST

单位:华中科技大学光学与电子信息学院

激光加工国家工程研究中心

Host:School of Optics and Electronic Information, HUST

National Engineering Research Center for Laser Processing

联系人(Contacts):

朱  芳(Zhu F.):+86 13317103060  

汤  阳(Tang Y.):+86 13971132793  

刘  彬(Liu B.):+86 15926231947  

刘善琨(Liu  S.):+86 13807191770

秦应雄(Qin Y.):+86 18971281421  

唐霞辉(Tang X.):+86 13908648657




华中科技大学

Huazhong University of Science and Technology

2017中俄激光精密微纳制造前沿技术研讨会

2017 Sino-Russia Workshop on Advanced Technologies for Laser Precision Micro-Nano Manufacturing

一、会议背景(Conference Background)

激光应用于微电子和显示面板的精密加工越来越重要。微电子和光显示作为湖北武汉的主导产业,2016年2月23日,国务院批复同意国家存储器基地落户湖北武汉。1380亿元国家集成电路产业投资基金和近1400亿元地方基金已相继成立。2016年3月28日,国家存储器基地在光谷开工。2017年6月14日TCL集团旗下的华星光电第6代柔性LTPS-AMOLED显示面板生产线在武汉光谷智能制造产业园正式开工建设,项目总投资350亿元,是国内第一条主攻折叠显示屏的6代柔性LTPS-AMOLED显示面板生产线。生产显示面板的天马微电子、富士康、京东方等大型企业也纷纷落户湖北武汉,一个新兴千亿产业雏形,在武汉已经形成。

Application of laser precision machining in microelectronics and display panels is becoming more and more important. Since the industries of microelectronics and light display are the dominant industries in Wuhan, Hubei, the State Council approved the National Storage Base to settle down here on February 23th, 2016. On March 28th, the National Storage Base started construction in the Optical Valley. Then, the national integrated circuit industry investment funds of $ 20 billion and the local funds of nearly $ 21 billion were founded successively. The 6th generation flexible LTPS-AMOLED display panel production line of Huaxing photoelectric, TCL Group's Subsidiary company started construction officially in Wuhan Optical Valley Intelligent Manufacturing Industry Park on June 14th, 2017, of which the total investment is about $ 5 billion, and it’s the first domestic production line of the 6th generation flexible LTPS-AMOLED display panel specializing in folding display. The manufacturers of display panels, such as Tianma Microelectronics, Foxconn, BOE and other large enterprises, have also settled down here, and an emerging industry prototype of tens of billions of dollars has been formed in Wuhan.

“武汉·中国光谷”激光产业发展已经进入新时代,光纤激光器、皮秒飞秒激光器、紫外激光器、激光智能装备、激光精密微细加工、激光3D打印成为近几年发展亮点,激光产业链产值达到300多亿元。

It has entered a new era that the development of laser industry of “Wuhan · China Optical Valley”. Fiber lasers, picosecond femtosecond lasers, UV lasers, laser intelligent equipment, laser precision micro-fabrication and laser 3D printing have become a development highlight in recent years, and the output value of laser industry chain has reached more than $ 4.5 billion.

二、会议主题(Conference Themes)

1、结合武汉中国光谷激光产业优势,围绕微电子、触控显示行业的激光应用;

2、探讨微电子行业激光精密微细加工技术前沿、增进学科交叉;

3、探讨激光精密加工前沿技术国际合作与成果转化。

1. To centre on the laser applications of microelectronics and touch display industry with the laser industry advantages of Wuhan · China Optical Valley

2. To explore the technology frontier of laser precision micro-fabrication in microelectronics industry, and enhance the interdisciplinary research

3. To discuss the international cooperation and achievement transformation of laser precision machining frontier technology


三、时间、地点及规模(Time, Site and Scale)

1、时间:2017年11月03日(全天)

2、地点:华中科技大学八号楼三楼报告厅

3、人数:100人

1. Time: November 3rd, 2017 (All day)

2. Site: The Lecture Hall on the 3rd floor of Building 8, Huazhong University of Science and Technology

3. Number of participants: 100 people

四、联合主办单位(Joint Organizer)

华中科技大学光学与电子信息学院

School of Optics and Electronic Information, Huazhong University of Science and Technology (HUST)

俄罗斯圣彼得堡国家信息技术、机械与光学大学(ITMO大学)

St. Petersburg Institute of Information Technology, Mechanical and Optical University (ITMO University, Russia)

中国光学学会激光加工专业委员会

Laser Processing Committee, China Optical Society

激光加工国家工程研究中心

National Engineering Research Center for Laser Processing (NERC-LP)

高功率激光器国家级国际联合研究中心

National International Joint Research Center for High Power Lasers

国家激光加工产业技术创新战略联盟

National Innovation Strategic Alliance of Laser Processing Industry Technology

光电产业国家国际科技合作基地联盟

National International Science and Technology Cooperation Base Alliance of Optoelectronic Industry

武汉•中国光谷激光行业协会

Wuhan · China Optical Valley Laser Industry Association

湖北省暨武汉激光学会  

Hubei Province and Wuhan Laser Association

五、组织机构(Organizations)

1. 会议主席(Chairmen)

张新亮 教授:华中科技大学光学与电子信息学院院长

Professor Zhang Xinliang:  Dean of School of Optical and Electronic Information, HUST

Vadim P. Veiko 教授:ITMO大学国际科学“激光微纳米技术”实验室负责人

Professor Vadim P. Veiko:Head of International Scientific Laboratory "Laser micro- & nanotechnologies ",ITMO University

朱  晓 教授:湖北省暨武汉激光学会理事长、武汉·中国光谷激光行业协会会长、华中科技大学激光加工国家工程研究中心主任

Professor Zhu Xiao: Chairman of Hubei Province and Wuhan Laser Association, President of Wuhan · China Optical Valley Laser Industry Association, Director of The National Engineering Research Center of Laser Processing(NERC-LP)

邹雪城 教授:华中科技大学武汉国际微电子学院执行院长

Professor Zou Xuecheng: Executive director of Wuhan International Institute of Microelectronics, HUST

2、组织委员会(Organization Committee)

组委会主席:刘继文,华中科技大学光学与电子信息学院党委书记

Chairman Liu Jiwen: Party secretary of School of Optical and Electronic Information, HUST

吕文中 教授:华中科技大学光学与电子信息学院副院长

Professor Lv Wenzhong: Associate dean of School of Optical and Electronic Information, HUST

唐霞辉 教授:湖北省暨武汉激光学会副理事长兼秘书长、华中科技大学激光加工国家工程研究中心副主任

Professor Tang Xiahui: Vice-chairman and Secretary-General of Hubei Province and Wuhan Laser Association, Deputy director of NERC-LP

秦应雄(会议秘书长): 华中科技大学光学与电子信息学院激光技术系主任

Qin Yingxiong (Secretary-General of the conference): Director of the Department of Laser Technology, School of Optical and Electronic Information, HUST

朱广志:华中科技大学光学与电子信息学院激光技术系副主任

Zhu Guangzhi: Vice-director of the Department of Laser Technology, School of Optical and Electronic Information, HUST

田  莉:华中科技大学光学与电子信息学院外事专员

Tian Li: Extra-affairs commissioner of School of Optical and Electronic Information, HUST

钟理京: 华中科技大学光学与俄罗斯ITMO大学联合培养博士生,会议翻译

Zhong Lijing: Convention translator, Joint doctoral student of HUST and ITMO University

蔡书豪: 俄罗斯ITMO大学,公派博士生,会议翻译

Cai Shuhao: Convention translator, Doctoral candidate of ITMO University

3、会议联系人(Contacts)

朱  芳(Zhu F.):+86 13317103060   汤  阳(Tang Y.):+86 13971132793  

刘  彬(Liu B.):+86 15926231947   刘善琨(Liu  S.):+86 13807191770

秦应雄(Qin Y.):+86 18971281421   唐霞辉(Tang X.):+86 13908648657



俄罗斯ITMO大学介绍

俄罗斯是国家“一带一路”倡议的核心国家之一。ITMO大学位于俄罗斯第二大城市圣彼得堡,该校建立于1900年,是俄罗斯历史最悠久的大学之一,其在光学,计算机,信息技术,精密机械和导航领域都处于国际顶尖水平,是15所入选“5-100俄罗斯学术卓越计划”的大学之一。2017年泰晤士高等教育世界大学排名将ITMO大学评为全球第351-400名,金砖五国与新兴经济体第27名,俄罗斯第3名。ITMO大学是“中俄工科大学联盟”,“上海合作组织”,“欧洲大学联盟”和“波罗的海区域大学网络(BSRUN)”的成员。“激光微纳制造技术”国际实验室,由Vadim P. Veiko教授创立于1965年。

      Russia is one of the core countries of the “the Belt and Road Initiative”. ITMO University, located in St. Petersburg, Russia's second largest city, was founded in 1900 and is one of the oldest universities in Russia. It is at the top international level in the fields of optics, computer, information technology, precision machinery and navigation, and also one of the 15 universities of “5-100 Russian Academic             Excellence Program”. In 2017, the Thames Higher Education World University ranked ITMO University as the world's 351-400, 27th in BRIC and emerging economies, 3rd    in Russia. Besides, ITMO University is a member of the Alliance of Sino-Russian Technology University (ASRTU), the Shanghai Cooperation Organization, the European Universities Association and the University of the Baltic Sea Regional University Network (BSRUN). International Laboratory for Laser Micro-Nano Manufacturing Technology was founded by Professor Vadim P. Veiko in 1965.

1988年至今,实验室共培养了300多激光技术领域的专家,2位博士和30多位副博士,出版专著9部,发表了超过500篇科学论文和50项专利。在2015年的学科竞赛中,“激光技术和系统”方向被评选为ITMO大学科学和教学的优先发展的方向,属于俄罗斯科学技术发展重点领域和关键技术。

Since 1988, the laboratory has trained more than 300 experts in the field of laser technology, two PhDs and more than 30 associate professors, published nine monographs, more than 500 scientific papers and 50 patents. In 2015 subject competition, the direction of "laser technology and systems" was selected as the ITMO University’s priority development direction of science and teaching, which belongs to the focus areas and key technologies of Russian science and technology development.

Vadim P. Veiko教授领导的“激光微纳制造技术”实验室在“玻璃-陶瓷材料(光敏玻璃、多空玻璃、石英玻璃等)的激光改性用于开发新型光学存储元件、微流体和传感器”方向有着多年的研究经验、成熟的研究团队和丰硕的成果,已经在Applied Physics Letters 、Applied Surface Science、Optics Express、Applied Physics B等杂志上发表30多篇SCI论文。在该研究方向,实验室与法国Jean Monnet 大学合作,用飞秒激光脉冲在多孔玻璃基体中加工复合纳米结构,应用于制作光学存储元件和气体传感器。

The laboratory of "Laser Micro-Nano Manufacturing Technology", led by Professor Vadim P. Veiko's, has many years of research experience, mature research team and fruitful results in the direction of "glass-ceramic materials (photosensitive glass, polygonal glass, quartz glass, etc.) laser modification for the development of new optical storage components, micro-fluids and sensors. So far, there are more than 30 SCI papers published in Applied Physics Letters, Applied Surface Science, Optics Express, Applied Physics B and other magazines. In the research direction, the laboratory cooperates with Jean Monnet University in France to process composite nanostructures in porous glass substrates with femtosecond laser pulses, which are applied for the fabrication of optical storage elements and gas sensors.


Reporter:

Non-contact ultrasonic acquisition of femtosecond laser-driven ablative Mbar-level shock waves on Ti alloy surface

Andrei Anatolevich Petrov

ABSTRACT

     Mbar-level ablative plume pressures, produced by single-shot femtosecond laser ablation of a dry Ti alloy surface and driving shock waves in air and in the solid target, were characterized using non-contact broad-band ultrasonic measurements. X-ray diffraction measurements reveal the resulting shock-wave induced sub-GPa residual compressive stresses over multi-micrometer depths inside the target, indicating GPa-level residual compressive stresses on its surface.

钛合金表面飞秒激光驱动烧蚀的兆巴级冲击波的非接触式超声波采集

Andrei Anatolevich Petrov

摘要

采用非接触式宽带超声波测量表征了单次飞秒激光烧蚀干燥钛合金表面导致的Mbar级消融羽流压力在空气中和固体靶中产生的冲击波。X射线衍射测量显示产生的冲击波在目标内的几微米深度上诱发了亚GPa的残余压应力,表明其表面上存在GPa级残余压应力。

Color laser marking technology: from jewelry to protection against falsification.

Karlagina Yu.Yu., Moskvin M.K., Odintsova G.V., Romanov V.V., Vlasova E.A., Yatsuk R.M. and Veiko V.P.

ABSTRACT

    This work describes a technology for coloration of metals (including precious metals) based on local laser oxidation and formation of periodic surface structures by nanosecond laser pulses. Reflectance spectra of obtained samples and corresponding color coordinates are shown. Wear-resistance tests are also performed, and chemical compositions are revealed. The potential applications of the technology are metal products decoration, identification and protection against falsification for various industries.

The reported study was financially supported by the Ministry of Education and Science of Russia, research agreement №14.578.21.0197 (RFMEFI57816X0197).

彩色激光打标技术:从首饰到防伪

Karlagina Yu.Yu., Moskvin M.K., Odintsova G.V., Romanov V.V., Vlasova E.A., Yatsuk R.M. and Veiko V.P.

摘要

这项工作描述了一种基于局部激光氧化和通过纳秒激光脉冲形成周期性表面结构的金属(包括贵金属)着色的技术。展示了所得样品的反射光谱和相应的色坐标。还进行耐磨性试验,并化学成分测量。该技术的潜在应用是金属制品装饰,标识和各行业的防伪。

Advanced laser technologies for glass materials micro & nano-structuring

Zakoldaev Roman

ABSTRACT

     Numerous promising laser applications are based on their capacity to locally modify dielectric materials with different initial porosity. In particular, various modifications can be performed inside of different glass paving a way toward a reliable inscription of numerous nano-structures that can be used as embedded optical components, sensors, and other devises. In particular, the use of ultra-short laser pulses has opened new possibilities in the fabrication of waveguides, volume nano-grating, X-ray preconditioning, periodic photochromic nanoparticle arrays, and many other components. In particular, it is still unclear how do they affect laser propagation and what material modifications one should expect as a function of the laser parameters.

If we consider glass surface modification even its relief change. There are a number of methods for glass processing are known, where the glass plate contacts (direct or indirect) with highly absorb surface (LIPAA, LIBWE, LIBDE etc.). Most of these methods are based on the action of micro-plasma induced in the interface of glass and absorbing target (so called confinement mode). We have made the research with the special mode of these methods, called by us laser-induced micro-plasma (LIµP), where highly absorbing plate is placed in the direct contact with the transparent material surface. Controlled micro-structuring of the transparent material occurs during the laser scanning in the interface of the target - transparent material.

先进的玻璃材料微纳结构激光技术

Zakoldaev Roman

摘要

许多有希望的激光应用是基于它们以不同初始孔隙度局部地改变介电材料的能力。特别是可以在不同的玻璃内部进行各种修改,为可以用作嵌入式光学部件,传感器和其他设计的多纳米结构铺设了道路。特别地,使用超短激光脉冲制造波导,体积纳米光栅,X射线预处理,周期性光致变色纳米颗粒阵列和其它组件方面已经开辟了新的可能性。然而,仍然不清楚它们如何影响激光传播,以及材料修改与激光参数的函数的关系。

如果我们考虑玻璃表面改性甚至其浮雕变化。有许多玻璃加工方法,其中玻璃板与高吸收表面(直接或间接)接触。这些方法中的大多数是基于在玻璃和吸收目标界面(即所谓的约束模式)诱导的微等离子体的作用。我们利用这些方法的特殊模式进行了研究,,其中高吸收片与透明材料表面直接接触,我们称之为激光诱导微等离子体(LIμP)。透明材料的受控微结构出现在激光扫描目标透明材料界面的过程中。



华中科技大学光学与电子信息学院简介

光学与电子信息学院现有的一级学科“光学工程”和二级学科“微电子学与固体电子学”为国家重点学科。“光学工程”在2012年的学科评估中名列全国第一(与浙江大学并列)。2017年进入全国“双一流”学科。学院现拥有4个本科专业(光电信息科学与工程、电子科学与技术、集成电路设计与集成系统、微电子科学与工程),8个硕士点(微电子学与固体电子学、半导体芯片系统设计与工艺、材料物理与化学、电力电子与电力传动、电子信息材料与元器件、光学工程、物理电子学、光电信息工程),7个博士点(微电子学与固体电子学、材料物理与化学、半导体芯片系统设计与工艺、电子信息材料与元器件、光学工程、物理电子学、光电信息工程)以及2个一级学科博士后流动站(电子科学与技术、光学工程)。学院已形成包括本科、硕士、博士、博士后完整的人才培养体系。

     The current disciplines "Optical Engineering" and secondary disciplines "Microelectronics and Solid Electronics" of the School of Optical and Electronic Information are the national key disciplines, of which the "Optical engineering" ranked first in the national assessment of the subject in 2012 (tied with Zhejiang University) and entered the "Double World-class" Development of China in 2017. The School contains four undergraduate majors (Optoelectronic information science and engineering, Electronic science and technology, Integrated circuit design and integration system and Microelectronic science and engineering), eight master degree programs (microelectronics and solid state electronics, semiconductor chip system design and technology, materials physics and chemistry, power electronics and power transmission, electronic information materials and components, optical engineering, physical electronics, optoelectronic information engineering), 7 Ph. D programs (microelectronics and solid-state electronics, material physics and chemistry,  semiconductor chip system design and technology, electronic information materials and components,  optical engineering, physical electronics, photoelectric information engineering) and two disciplines post-doctoral mobile stations (Electronic science and technology, Optical engineering). A complete talent training system, including undergraduate, master, doctor and postdoctoral, has been formed.

学院借鉴国际一流大学的办学经验,坚持优秀教师国际公开遴选,以高水平科研带动高质量教学。学院现有教职员工190人,包括教授49人,副教授69人。学院与光电国家实验室(筹)一道,推进学科发展和教育创新,已构建了实力雄厚的师资队伍。其中包括中组部“”和“计划”入选者15名、教育部长江学者特聘教授2名、国家级教学名师1人、国家杰出青年基金获得者1人、国家优秀青年基金获得者3人、“万人计划”青年拔尖人才3人、教育部新世纪优秀人才16人、楚天学者特聘教授7人、华中学者16人。

The school learns the experience from international first-class university and insists on the international and open selection of outstanding teachers to promote high-quality teaching with high-level scientific research. Now, there are 190 staff, including 49 professors and 69 associate professors. The school, together with the Wuhan National Laboratory for Optoelectronics, has built a strong contingent of teaching staff by promoting disciplines development and education innovation, including 15 winners of “The Recruitment Program of Global Experts” and “Young overseas high-level talents introduction plan”, two Chair Professor of Cheung Kong Scholars Programme, one National Teaching Master, one winner of the National Outstanding Youth Fund, three winners of National Excellent Youth Fund, three young talents of “Ten Thousand People Plan”, 16 New Century Excellent Talents of the Ministry of education, 7 professors of Chutian scholar and 16 Central Chinese scholars.

光学与电子信息学院拥有强大的学科和科研平台。武汉光电国家实验室(筹)、激光加工国家工程研究中心、下一代互联网接入系统国家工程实验室、电子信息功能材料教育部重点实验室、教育部敏感陶瓷工程研究中心、湖北省光电测试服务中心、武汉市集成电路设计工程技术研究中心、武汉智慧城市研究院、国家集成电路人才培养基地等重要平台,都已成为学院人才培养和科学研究的支撑基地。

The School of Optical and Electronic Information possesses a strong academic and scientific research platform, including the Wuhan National Laboratory for Optoelectronics, the National Engineering Research Center for Laser Processing, the National Engineering Laboratory of Next Generation Internet Access System, the Electronic Information Function Key Laboratory of Ministry of Education, the Sensitive Ceramic Engineering Research Center of Ministry of Education, the Hubei Photoelectric Testing Service Center, the Wuhan Engineering Technology Research Center for Integrated Circuit Design, the Wuhan Research Institute of Wisdom City, the National Talent Training Base for Integrated Circuit and so on, which have become the support base for personnel training and scientific research in Colleges.

依托光学与电子信息学院,在大学院制框架下,2015年9月以来,学院还承担了“武汉国际微电子学院”建设任务,正在创建国家示范性微电子学院。武汉国际微电子学院由武汉东湖国家自主创新示范区、武汉新芯集成电路制造有限公司、美国Synopsys武汉有限公司等单位与华中科技大学协同共建,通过人才培养、科学研究、成果转化、国际合作、战略咨询,积极推进国家、湖北、武汉市的微电子和集成电路产业发展。

Since September 2015, the School of Optical and Electronic Information has also assumed the construction task of ‘Wuhan International Microelectronics Institute’ to create a national demonstration school of microelectronics. Built by the cooperation of Wuhan East Lake National Independent Innovation Demonstration Zone, Wuhan Xinxin Semiconductor Manufacturing Corporation, Synopsys Wuhan, Inc. etc. and Huazhong University of Science and Technology, Wuhan International Microelectronics Institute actively promote the microelectronics and integrated circuit industry development of the country, Hubei Province and Wuhan via talent development, scientific research, achievement transformation, international cooperation and strategic consulting.

学院积极开展国际合作办学,与法国巴黎萨克雷大学(原巴黎南十一大)、巴黎六大、斯特拉斯堡大学等高校联合开办“光电信息工程”(中法班),采取3+3培养模式,直接选拔优秀本科生赴法留学,攻读硕士学位和工程师学位(Engineer Diploma)。与英国伯明翰大学联合开办中英班,交流模式为“3+1”(即在我院读3年,赴英国伯明翰大学读1年)、“2+2”(即在我院读2年,赴英国伯明翰大学读2年),中英双方均互认学分,成绩合格者获两校毕业文凭。与美国东北大学联合举办中美班,采取“3+2”模式培养。

The school actively engaged in international cooperation, together with University Paris-Saclay (the former University Paris-Sud), University Paris VI and University of Strasbourg etc. to set up ‘photoelectric information engineering’ (China-France class). A training mode of ‘3+3’ by directly selecting outstanding undergraduate students to study in France for a master’s degree and engineer degree(Engineer Diploma) was established. Furthermore, with the union of University of Birmingham, the school run the China-U.K. classes in the training modes of ‘3+1’ (3-year study in our schools and 1-year in University of Birmingham ) and ’2+2’ (2-year study in our schools and 2-year in University of Birmingham ). The credits are certified both in China and the U.K. and the qualified students will get the diploma of both sides. Besides, the school hold a jointly China-USA classes with Northeast University of the USA in a training mode of ‘3+2’.



激光加工国家工程研究中心简介

激光加工国家工程研究中心于1995年经国家计委批准建立2003完成建设,重点围绕新一代工业激光技术发展与应用,建立了新一代工业激光器创新设计与开发平台,将激光应用基础研究、激光单元器件技术开发、激光加工工艺与装备集成有机结合,以拓展工业激光技术新领域,引领和促进我国激光技术与激光产业发展为主要目标。激光加工国家工程研究中心具有完成整学研产配套,建立研发和产业两个基地。研发基地在华中科技大学,负责激光技术创新研发。产业基地在华工科技,将研发基地成果进行标准化和商品化推向市场或技术转移到行业内其它企业,负责新产品的市场开发和规模化生产。激光加工国家工程研究中心是中国工业激光技术的重要发源地之一,是激光技术人才培养的摇篮,是湖北省暨武汉市激光学会理事长和“武汉.中国光谷”激光行业协会会长单位。

     National Engineering Research Center for Laser Processing (NERC-LP) was approved by the State Planning Commission in 1995 and put into operation in 2003. Focusing on development and application of new generation industrial laser technology, NERC-LP established industrial laser innovation design and development platform. NERC-LP combined fundamental laser application research, development of laser unit device technology, laser processing technology and equipment integration, aims to expand the field of industrial laser technology and lead promoting China's laser technology and laser industry. NERC-LP has a complete industry- university-research cooperation and established two bases of R&D and industry. R&D base locates at Huazhong University of Science and Technology, aiming at laser technology innovation research and development. While industrial base locates at HG laser Ltd., aiming to standardize and commercialize the achievements of R&D base for marketing or transferring to other enterprises within the industry, are responsible for the development of new products and large-scale production. NERC-LP is one of the important birthplaces of Chinese industrial laser technology and the talents training cradle of laser technology. It is also the chairman unit of Hubei Province and Wuhan Laser Association and the president unit of Wuhan·China Optical Valley Laser Industry Association.

光学与电子信息学院激光技术系依托激光加工国家工程研究中心组建而成,并以此为平台开展科学研究与人才培养工作。激光技术系现有教职员工30余人,其中教授3人,副教授7人,讲师6人,工程技术人员14人,近年引进海外高水平博士2人。武汉地区近十位激光领域的和企业领军人才担任激光技术系的兼职教授或研究生创新创业导师。

Department of Laser Technology, School of Optical and Electronic Information, was built on NERC-LP as a platform for scientific research and personnel training. Department of Laser Technology has staff of more than 30 people, including 3 professors, 7 associate professors, 6 lecturers and 14 engineers. Among them, 2 overseas high level doctors have been introduced in recent years. There are nearly 10 experts in laser field from the Thousand Talents Plan and business leaders playing a role as the part-time professor or innovation and entrepreneurship mentor of graduate student.

近年来激光技术系承担“十一五”国家支撑计划课题、国际合作重大项目、工程中心创新能力建设、国家自然科学基金等科研和平台建设等多个项目,获得经费4000余万元。2011年和2012年,激光技术系承担的新一代工业激光器(7kW轴快流激光器、2kW射频板条激光、千瓦级碟片激光器)分别研制成功,打破国外技术垄断,技术水平世界第二,将继续引领中国工业激光器的发展。

In recent years, Department of Laser Technology got the topics from "Eleventh Five-Year" National Support Program, Major Projects of International Cooperation, Innovation Ability Construction of Engineering Center, the National Natural Science Fund and other research and platform construction, collecting a fund of more than 40 million RMB. In 2011 and 2012, a new generation of industrial lasers (7kW axis fast flow laser, 2kW RF slab laser and kilowatt-class disc laser) undertaken by Department of Laser Technology had been successfully developed to break the monopoly of foreign technology, of which the technical level rank second in the world. Moreover, it continues to lead the development of China's industrial lasers.

激光技术系积极利用激光工程中心的科研资源与创新平台为教学服务,承担了本科教学任务和研究生培养工作,主要讲授《应用光学》、《物理光学》、《激光原理与技术》、《激光器件原理及设计》、《激光与物质相互作用》、《激光工程应用》等本科生课程;《光电子学导论》、《激光技术最新进展》、《光电检测与光电图像处理》等硕士研究生课程,以及《全固态激光器原理与技术》博士生课程。承担大量的本科生生产实习、毕业设计的指导任务,目前在读博士生20余名,硕士生50余名。

Department of Laser Technology actively uses the research resource and innovation platform of NERC-LP to provide services for teaching, including undertaking the tasks of undergraduate teaching and work of postgraduate training. Specifically, undergraduate courses such as Applied Optics,Physical Optics,Laser Principle and Technology, Principle and Design of Laser Device, Laser-Matter Interaction, Laser Engineering Applications and so on, and postgraduate courses such as Introduction to Optoelectronics, Recent Advances in Laser Technology, Photoelectric Detection and Photoelectric Image Processing and so on, and also Doctoral courses like Principle and Technology of All Solid-State Laser are taught. In addition, the Department of Laser Technology is also responsible for lots of undergraduate graduation guidance tasks such as production practice and graduation project. At present, there are more than 20 Doctor candidates and 50 master candidates in the department.

激光技术系近几年先后获省部级奖励10多项,日内瓦发明奖-银奖1项,中国光学重要成果奖1项,授权国家发明专利30余项,出版专著5本,发表研究论文200多篇,其中光学类国际学术刊物OE、OL论文10余篇。

As for recent academic achievements, Department of Laser Technology has won more than 10 provincial and ministerial level awards, including a silver award of Geneva Invention Award, and an Important Achievement Award of China Optics. Besides, more than 30 national invention patents are authorized. It was five books and more than 200 papers that were published, of which more than 10 papers were published on international journal of Optics such as OE and OL.


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