報(bào)告題目:New approaches tobiomedicaland biochemical sensors
報(bào) 告 人:Michael Kraft 教授
邀 請(qǐng) 人:常洪龍教授
報(bào)告時(shí)間:2017年1月16日(星期一)9:00-10:30
報(bào)告地點(diǎn):友誼校區(qū)航空樓B410第一會(huì)議室
報(bào)告簡(jiǎn)介:Biomedical and biochemical sensors are used routinely in clinical medicine and biological research for measuring a wide range of physiological variables. They are of great promise to further improve the detection limits and selectivity for the quantification of biological analytesand are the main building blocks of diagnostic medical instrumentation found in physicians' offices, clinical laboratories, and hospitals. The need for accurate medical diagnostic procedures places stringent requirements on the design and use of biomedical and biochemical sensors.
報(bào)告題目:Coupled resonator as a new transduction paradigm for a wide range of sensors
報(bào) 告 人:Michael Kraft 教授
邀 請(qǐng) 人:常洪龍教授
報(bào)告時(shí)間:2017年1月17日(星期二)9:00-10:30
報(bào)告地點(diǎn):友誼校區(qū)航空樓B410第一會(huì)議室
報(bào)告簡(jiǎn)介:Thetransduction scheme based onmode localization of weakly coupled resonators (WCRs)was proved as an effective way to enhance the sensitivityof resonant sensors. Mode localization can be described as a small symmetry-breaking perturbation to a periodical oscillating system with two symmetric resonant units, leading to energy confinement, mode localization and curve veering (the three terms are different manifestations of the same phenomenon). Using this effect, the sensitivity of WCRs based sensors could be enhanced by orders of magnitude compared with traditional resonant sensors.
報(bào)告題目:An overview ofthe state-of-the-art SOI process
報(bào) 告 人:Michael Kraft 教授
邀 請(qǐng) 人:常洪龍教授
報(bào)告時(shí)間:2017年1月18日(星期三)9:00-10:30
報(bào)告地點(diǎn):友誼校區(qū)航空樓B410第一會(huì)議室
報(bào)告簡(jiǎn)介:Silicon-on-insulator (SOI), as a new substitution of bulk silicon, which has the advantages of power dissipation, low parasitic capacitance, restrainning the pulse effect, eliminating the latch-up effect, and takes over the main position. In this talk, we discuss the current situation and prospects of SOI in terms of SOI' s development, process, research, application and market prediction.
報(bào)告題目:Engineering Atom and IonChips
報(bào) 告 人:Michael Kraft 教授
邀 請(qǐng) 人:常洪龍教授
報(bào)告時(shí)間:2017年1月19日(星期四)9:00-10:30
報(bào)告地點(diǎn):友誼校區(qū)航空樓B410第一會(huì)議室
報(bào)告簡(jiǎn)介:Atom chips offer a convenient way to miniaturize experiments in atomic physics. Microstructures on the surface of the chip produce magnetic and/or electric fields, which can be used to confine and manipulate cold alkali atoms near the surface of the chip. The large field gradients that can be generated near a microstructured surface permit the controlled tunnelling of atoms over micron or sub-micron lengths. This makes the atom chip a natural platform for applications in coherent matter-wave control such as miniaturized atom interferometry, quantum information processing, and the study of low-dimensional quantum gases.
報(bào)告人簡(jiǎn)介:Michael Kraft是比利時(shí)列日大學(xué)微納米系統(tǒng)方向的教授。Kraft教授1993年本科畢業(yè)于德國(guó)紐倫堡大學(xué), 1997年博士畢業(yè)于英國(guó)考文垂大學(xué)。1998-1999年在加州大學(xué)伯克利傳感器中心做博士后。之后在英國(guó)南安普頓大學(xué)任講師、教授至2012年。期間還擔(dān)任南安普頓納米制備中心主任。2012-2014年在德國(guó)杜伊斯堡弗勞恩霍夫研究所擔(dān)任微納米系統(tǒng)部門負(fù)責(zé)人,專注于微傳感器和生物混合系統(tǒng)的全面集成。2015年加入比利時(shí)列日大學(xué)。
Kraft教授主要致力于慣性傳感器、微納米制造工藝、微傳感器的閉環(huán)控制系統(tǒng)以及原子芯片等領(lǐng)域的研究。2005年,其研究小組為MEMS加速度計(jì)開(kāi)發(fā)了世界上第一個(gè)5階調(diào)制器(SDM)接口,并在2007年開(kāi)發(fā)了一個(gè)帶通SDM MEMS陀螺儀。Kraft教授還對(duì)靜電懸浮微物的傳感和驅(qū)動(dòng)應(yīng)用做了開(kāi)創(chuàng)性工作,并且開(kāi)發(fā)了MEMS原子和離子芯片。Kraft教授多次在國(guó)際學(xué)術(shù)交流會(huì)議上作特邀報(bào)告,發(fā)表200多篇同行評(píng)議的期刊和會(huì)議論文。
歡迎各學(xué)院師生前來(lái)聽(tīng)報(bào)告。報(bào)告會(huì)期間請(qǐng)關(guān)閉手機(jī)或?qū)⑹謾C(jī)調(diào)至靜音模式。
