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The objective of the major in micro and nano-systems (as with the Master’s degree programme in electrical engineering and electromechanics) is to introduce students to the techniques of micro and nano-manufacturing, design and multiphysical simulation and the classification of micro and nano receptors and actuators in integrated technology. Given the applications of MEMS and NEMS in numerous fields (automotive, communications, electronics, domestic, medical) the analysis of micro and nano-structures and the study of their behaviour is based on a multidisciplinary approach.
> Legend 
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Students enrolled in this major must also enrol in one of the following minors: ELEC, FYKI or MECA. Students may select 15 to 28 credits from the following courses: |
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| De 15 à 28 credits parmi | ||||||||
| Annual block | ||||||||
| 1 | 2 | |||||||
Compulsory courses in MEMS & NEMS
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LELEC2560
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Micro and Nanofabrication Techniques | Laurent Francis, Benoît Hackens, Jean-Pierre Raskin | 30h+30h | 5 credits | 2q | x | x | |
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LELEC2895
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Design of micro and nanosystems | Denis Flandre, Laurent Francis (coord.), Thomas Pardoen, Jean-Pierre Raskin | 30h+30h | 5 credits | 1q | x | x | |
Elective courses in MEMS & NEMS
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LELEC2590
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Seminars in electronics and communications | Denis Flandre, Isabelle Huynen, Jérôme Louveaux | 30h | 3 credits | 2q | x | x | |
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LMAPR2015
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Physics of Nanostructures | Jean-Christophe Charlier, Xavier Gonze, Luc Piraux | 37.5h+22.5h | 5 credits | 1q | x | x | |
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LMAPR2020
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Materials Selection | Christian Bailly, Thomas Pardoen | 30h+22.5h | 5 credits | 2q | x | x | |
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LPHY2246
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Basses pressions et physique du vide | Benoît Hackens, Sorin Melinte | 30h | 5 credits | 1q | x | x | |
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LELEC2811
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Instrumentation and sensors | David Bol, Laurent Francis | 30h+30h | 5 credits | 1q | x | x | |
