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Kies de Nederlandse taal
Course module: 193530010
193530010
Nanophysics
Course infoSchedule
Course module193530010
Credits (ECTS)5
Course typeCourse
Language of instructionEnglish
Contact personprof.dr.ir. H.J.W. Zandvliet
E-mailh.j.w.zandvliet@utwente.nl
Lecturer(s)
Examiner
dr. A.A. Golubov
Examiner
dr. C. Li
Examiner
prof.dr.ir. H.J.W. Zandvliet
Contactperson for the course
prof.dr.ir. H.J.W. Zandvliet
Academic year2021
Starting block
1A
Application procedureYou apply via OSIRIS Student
Registration using OSIRISYes
Aims
After passing this course the student is able to;
  • understand, apply and comprehend the behaviour of electrons (charge carriers) in systems with reduced dimensions,
  • familiar with the Landauer-Büttiker formalism
  • understand, apply and comprehend mesoscopic systems including the transport in these systems,
  • understand, apply and comprehend coherent and incoherent transport phenomena,
  • understand, apply and comprehend the essence of Coulomb blockade and quantum confinement in zero-dimensional systems,
  • understand why and how moiré materials (moiré engineering) offer the possibility to tailor/tune the structural and electronic properties (or tune the quantum state of matter),
  • understand and comprehend the working principles of the single electron transistor.
Content
In this course we focus on low-dimensional systems with typical length scales in the range of 1-100 nm. At this small length scale quantum mechanical phenomena play a dominant role in the physics of devices. Prominent topics are quantum electronic transport, both coherent and incoherent, Coulomb blockade, and the quantum Hall effect. The physical description of these phenomena is illustrated by examples from current research in nanophysics. Often we revise, exchange or add new timely topics to this course. During the last few years we have added the following topics: graphene, 2D Dirac materials, moiré materials/twisted materials and quantum spin Hall effect.
 
Assessment
Throughout the course the students will have to solve three homework assignments. These homework assignments will be marked. The results of the homework assignments count for 1/3.
At the end of the course there is a written exam of 3 hours. The exam is an open-book exam. The mark of this written counts for 2/3.
Assumed previous knowledge
Necessary: Bachelor physics; Desirable: Applied Quantum Mechanics, course code 191411291; Theory of solid state physics, course code 193510040.
Participating study
Master Applied Physics
Required materials
-
Recommended materials
Book
"Electronic Transport in Mesoscopic Systems", S. Datta, ISBN 0521599431
Handouts
-
Instructional modes
Lecture
Presence dutyYes

Tutorial
Presence dutyYes

Tests
Test 1

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Kies de Nederlandse taal