器件和器件设计技术是微纳电子学的一个研究热点。
These devices themselves and the techniques of designing such devices have been now the hot research topics in the field of micro-nano-electronics.
而利用微纳粉末金属材料进行微成型目前尚处于探索阶段。
However nowadays it is still at the stage of exploring to utilize micro powder metal material for micro-fabrication.
飞秒激光加工技术已经为材料的微纳加工提供了有力的手段。
Femtosecond laser ablation is an important method in processing materials.
本工作主要是微纳流控芯片在药物和生物分析中的应用研究。
In my works, they are about preconcentrating and separating biological and medical molecules using micro- and nano-devices.
但是通过介电泳对组装的微纳结构进行精确控制目前仍存在比较大的困难。
However, due to inadequate understanding of DEP mechanisms, it remains very limited to precisely control the final structure of assembled nanoparticles under DEP.
以行波介电泳基本原理为基础,对微纳粒子操控技术的机理与实验进行了研究。
Based on travel-wave electrophoresis (twDEP), this thesis shows the theory analysis and related experiments to control micro-particles.
近年来,各种微纳观技术和显微成像技术的应用,使得骨力学研究深入至微纳观水平。
In recent years, due to all kinds of micronano techniques and image proceeding application, much progress was made in studying micronano-mechanics of bone.
光电薄膜作为面向仿生微纳导航系统中的重要器件,在偏振光的检测方面起着重要作用。
The photoelectric films as the important device of the photoelectric film for the bionic micro-nano navigation system, plays an important role in polarized light detection.
针对研制仿生微纳导航传感器的需要,设计了一种基于虚拟仪器的仿生偏振光测试系统。
The model and the device for the bionic polarized light test and the overall framework of the test system were introduced.
最后,采用室温键合技术,将带有微纳结构的基片与盖片封合成玻璃微-纳流控复合芯片。
Finally, the channel-structured glass substrate was sealed to a cover glass plate by using room temperature bonding technique.
济南微纳颗粒技术有限公司是专门研发、生产、销售颗粒测试相关仪器设备的高科技企业。
Jinan Winner particle Technology Co., Ltd. is a high-tech enterprise which is specialized in producing, selling equipments that about particle testing thereof.
飞秒激光由于其超快时间特性和超高峰值功率特性在精密微纳加工领域引起了人们广泛的重视。
Great interest is focused on femtosecond laser micro-nano fabrication due to the ultra-short time scale and ultra-high peak power density characteristics of the femtosecond lasers.
在当今追求科技产品多功能的信息时代,人们对微纳尺度光电器件和电子器件的要求日益提高。
In the information age, multi-functional products have attracted much attention as the rapid development of science and technology.
重点分析了3-DOF并联微纳操作器的运动学正解和逆解,推导出了运动学正解的雅可比矩阵。
The forward and inverse kinematics solutions of a 3-DOF parallel micro-nano manipulator were emphatically analyzed, and the Jacobi matrix of kinematics forward solution was derived.
随着微型无人机、微纳卫星的出现,迫切需要功能更强、集成度更高、功耗更低的微型集成射频模块。
Future mini-aircrafts, such as Micro air Vehicle (MAV) and Nano-satellite, requires RF front-end modules with functional complexity, high density and low power consumption.
近几年来,微纳光波导在制备技术上获得了突破,并具有很多特殊性质,包括低损耗、强倏逝波场等。
Recently, a breakthrough has been made in the fabrication of the silica nano-wire waveguides. It has many special properties, such as low-loss, strong evanescent-field and so on.
介绍了微纳多层共挤出技术是通过简单地对高分子熔体进行分割-变流-合并过程来增加层数的技术。
The number of layers was increased through slicing-flow changing-combining polymer melts by micro-or nano-layer coextrusion, and the micro-or nano-layer alternative structure was designed.
碳纳米管具有独特的力学、电学性能,并且是典型的一维量子线,被认为是构筑未来微纳电子器件的主要材料。
Carbon nanotubes have novel mechanical, electrical properties, and they are typical 1D quantum wire. They are expected to be the fundamental materials for future micro- or nano- electronic devices.
利用反应离子束刻蚀等微纳超精细加工而成的多层电介质结构反射镜可在高功率条件下实现啁啾脉冲的光谱整形。
The multilayer dielectric thin film reflector fabricated by top-down nano-fabrication processes can be used to realize the spectral reshaping of high power chirped pulses.
揭示了半导体表面微钠区城原子结构对其微纳区域表面和界面电子特性的影响,为认识半导体微纳区域表面和界面电子行为提供了新思路。
By using the adsorption of gas probe, we can understand the surface or interface electron character of functional semiconductor in micro-nano region in essentially from a new point of view.
光与纳米金属复合结构相互作用产生的新现象和实现的新功能,在微纳传感探测、纳米光子器件及其集成等纳米光子学领域具有良好的应用前景。
The interactions of the light and metal composite nanostructures generate new phenomena and realize new function, which has potential applications in the nano-optics field.
纳希微低下头,注意到一些人站在毗邻的屋顶上面向西边指着天空。
Nachtwey glanced down, and noticed some people standing on an adjacent roof, looking west and pointing toward the sky.
印地安纳大学布卢明顿分校的研究员们想出一种追踪“微博馈送”的办法,嗅探可能是谎言的微博内容。
Researchers at Indiana University in Bloomington have come up with a way to track Twitter feeds and sniff out those tweets that might be lies.
上午10点29分,纳希微听到“似乎是天空中的瀑布”发出的声响,抬头看到北塔正在他的头顶倒塌下来。
At 10:29 a.m., Nachtwey heard "what sounded like a waterfall in the sky," and looked up to see the north tower coming right down on top of him.
弗拉基米尔·纳博科夫,《阿达》、《佩宁》、《微暗的火》和引人犯罪的超级畅销书《萝莉塔》的广受赞誉的作者,他的富于想像力的写作技巧持续折磨着一代又一代的读者。
Vladimir Nabokov, the acclaimed author of Ada, Pnin, Pale Fire and that transgressive bestseller Lolita, is a writer whose imaginative mastery continues to torment successive generations.
以下照片均拍摄于911事件期间,拍摄者詹姆斯.纳希微描述为:“在我的记忆里,一切就像是慢镜头,所有事物都在漂浮。
The following photographs were all made on 9/11 and are described here in Nachtwey's own words: “In my mind it all went into slow motion. Everything was floating.
其中之一詹姆斯.纳希微拍摄的“印度尼西亚”(1988),我记得看到照片时脱口而出:“哇”。
The other image, ”Indonesia” (1988), is by James Nachtwey. I remember seeing this and saying, “Wow.”
王微在最近的法国嘎纳电视节上接受了《卫报》的采访,他解释说在土豆网现有1300万段视频中,大约有30%-70%适合做广告。
Speaking to the Guardian at the recent Mipcom TV market in Cannes, Wang explains that of the 13m video clips currently on Tudou, somewhere between 30% and 70% are of a type acceptable to advertisers.
赫夫纳在微博上写道:“当我把戒指送给克里斯托尔的时候,她激动得热泪盈眶。这是我记忆中最幸福的圣诞周末了。”
"When I gave Crystal the ring, she burst into tears. This is the happiest Christmas weekend in memory," Hefner tweeted.
赫夫纳在微博上写道:“当我把戒指送给克里斯托尔的时候,她激动得热泪盈眶。这是我记忆中最幸福的圣诞周末了。”
"When I gave Crystal the ring, she burst into tears. This is the happiest Christmas weekend in memory," Hefner tweeted.
应用推荐