Band Structures of Graphene and Carbon Nanotubes. Electrical Transport Through 1-dimensional and 2-dimensional Structures. Landauer Theory. Schottky Barrier. Quantum Dots and Coulomb Blockade. Spin and Valley Current. Heterostructures Based On Van Der Waals 2 Dimensional Materials. Band Gap, Mobility, and Optical Properties. Learning Outcomes# Understanding The Physical Principles Governing Electrical Transport In 1 and 2 Dimensional Materials. Acquiring Analysis Capabilities Of Energy Bands of Heterostructures and Implementing Different Device Types With The Studied Materials.

Faculty: Electrical and Computer Engineering
|Graduate Studies
Pre-required courses

(44124 - Physical Electronics and 114073 - Int. to Quantum Physics For Engineering) or (115203 - Quantum Physics 1 and 116217 - Solid State Physics)

Course with no extra credit

48908 - Selected Topics in Microelectronics 2

Semestrial Information

Weekly Hours

2 Academic Credit • 2 Lecture Hours

Responsible(s)

Yuval Yaish


Registration Groups
10
Lecture Monday 16:30 - 18:30 בנ.מאייר 353 | Yuval Yaish