The objective of this major is to introduce students to physics and the simulation of materials and devices used in the field of micro and nano-electronics, to the properties and methods associated with the manufacturing and classification of micro and nano-structures; to the ways in which nano-devices function as well as the development and integration of organic elements into nano-systems.
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| From 20 to 30 credits | |||||||||||||||||||||||||||
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| 1 | 2 | ||||||||||||||||||||||||||
Content:
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Nano-structures and the physics of nano-materials
To enrol in this major, students should have already taken a physical materials class such as MAPR1492.
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LMAPR2015
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Physics of Nanostructures | Jean-Christophe Charlier (coord.) , Xavier Gonze , Luc Piraux | 37.5h+22.5h | 5 credits | q1 | x | x | ||||||||||||||||||||
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LMAPR2451
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Atomistic and nanoscopic simulations | Jean-Christophe Charlier , Xavier Gonze , Gian-Marco Rignanese | 30h+30h | 5 credits | q2 | x | x | ||||||||||||||||||||
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LPHYS2351
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Superconductivity | Luc Piraux | 22.5h+7.5h | 5 credits | q1 | x | x | ||||||||||||||||||||
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Nano and micro semi-conductor devices
To enrol in these courses it is recommended that students have already taken a course in physical electronics or in semiconductor devices such as ELEC 1330 or ELEC 1755 or similar.
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LELEC2541
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Advanced Transistors | Denis Flandre (coord.) , Benoît Hackens , Jean-Pierre Raskin | 30h+30h | 5 credits | q2 | x | x | ||||||||||||||||||||
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LELEC2550
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Special electronic devices | Vincent Bayot | 30h+30h | 5 credits | q1 | x | x | ||||||||||||||||||||
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LELEC2710
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Nanoelectronics | Vincent Bayot (coord.) , Benoît Hackens | 30h+30h | 5 credits | q1 | x | x | ||||||||||||||||||||
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Micro and nano-engineering
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LELEC2560
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Micro and Nanofabrication Techniques | Laurent Francis (coord.) , Benoît Hackens , Jean-Pierre Raskin | 30h+30h | 5 credits | q2 | x | x | ||||||||||||||||||||
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LELEC2895
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Design of micro and nanosystems | Laurent Francis | 30h+30h | 5 credits | q1 | x | x | ||||||||||||||||||||
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LMAPR2012
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Macromolecular Nanotechnology | Sophie Demoustier , Karine Glinel , Karine Glinel (compensates Bernard Nysten) , Jean-François Gohy , | 45h+15h | 5 credits | q2 | x | x | ||||||||||||||||||||
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LMAPR2631
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Surface Analysis | Arnaud Delcorte , Bernard Nysten | 30h+15h | 5 credits | q2 | x | x | ||||||||||||||||||||
