Electromagnetism applied at the nanoscale can be used to exploit a wide variety of phenomena, including ultrafast electronics and organic molecules that emit light. The EECS curriculum includes courses in nearly every aspect of these varied disciplines.
| |
faculty |
classes |
| nanoelectronics |
Antoniadis, Baldo, Berggren, Bulovic, Chandrakasan, del Alamo, Hoyt, Hu, Kong, Orlando, Palacios, Sarpeshkar, H.I. Smith, White |
6.007, 6.012, 6.A46, 6.085, 6.374, 6.376, 6.720, 6.728, 6.729, 6.730, 6.732, 6.772, 6.774, 6.789, 6.975 |
| nanomagnetics |
Fonstad, Zahn |
6.641 and 6.642 |
| nano/micro-optics |
Berggren, Bulovic, Dresselhaus, Fonstad, Freeman, Hu, Ippen, Kaertner, Kolodziejski, Ram, H.I. Smith, White, Yanik |
6.007, 6.013, 6.A46, 6.084, 6.602/6.621, 6.728, 6.730, 6.731, 6.732, 6.772, 6.789 |
| nanoenergy |
Berggren, Baldo, Bulovic, Dresselhaus, Kassakian, Kolodziejski, Kong, Lang, Palacios, Ram, Schindall |
6.007, 6.013, 6.152J, 6.731, 6.732, 6.772, 6.789 |
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