Christian Degen: Katalogdaten im Frühjahrssemester 2016

NameHerr Prof. Dr. Christian Degen
LehrgebietSpinphysik
Adresse
Laboratorium für Festkörperphysik
ETH Zürich, HPF F 6
Otto-Stern-Weg 1
8093 Zürich
SWITZERLAND
Telefon+41 44 633 23 36
E-Maildegenc@ethz.ch
URLhttp://www.spin.ethz.ch/
DepartementPhysik
BeziehungOrdentlicher Professor

NummerTitelECTSUmfangDozierende
402-0101-00LThe Zurich Physics Colloquium Information 0 KP1KR. Renner, G. Aeppli, C. Anastasiou, N. Beisert, G. Blatter, M. Carollo, C. Degen, G. Dissertori, K. Ensslin, T. Esslinger, J. Faist, M. Gaberdiel, G. M. Graf, R. Grange, J. Home, S. Huber, A. Imamoglu, P. Jetzer, S. Johnson, U. Keller, K. S. Kirch, S. Lilly, L. M. Mayer, J. Mesot, M. R. Meyer, B. Moore, F. Pauss, D. Pescia, A. Refregier, A. Rubbia, K. Schawinski, T. C. Schulthess, M. Sigrist, A. Vaterlaus, R. Wallny, A. Wallraff, W. Wegscheider, A. Zheludev
KurzbeschreibungResearch colloquium
Lernziel
Voraussetzungen / BesonderesOccasionally, talks may be delivered in German.
402-0501-00LSolid State Physics Information 0 KP1SG. Blatter, C. Degen, K. Ensslin, D. Pescia, M. Sigrist, A. Wallraff, A. Zheludev
KurzbeschreibungResearch colloquium
Lernziel
402-0538-16LIntroduction to Magnetic Resonance for Physicists6 KP2V + 1UC. Degen
KurzbeschreibungThis course provides the fundamental principles of magnetic resonance and discusses its applications in physics and other disciplines.
LernzielMagnetic resonance is a textbook example of quantum mechanics that has made its way into numerous applications. It describes the response of nuclear and electronic spins to radio-frequency magnetic fields. The aim of this course is to provide the basic concepts of magnetic resonance while making connections of relevancy to other areas of science.
After completing this course, students will understand the basic interactions of spins and how they are manipulated and detected. They will be able to calculate and simulate the quantum dynamics of spin systems. Examples of current-day applications in solid state physics, quantum information, magnetic resonance tomography, and biomolecular structure determination will also be integrated.
InhaltFundamentals and Applications of Magnetic Resonance
- Historical Perspective
- Bloch Equations
- Quantum Picture of Magnetic Resonance
- Spin Hamiltonian
- Pulsed Magnetic Resonance
- Spin Relaxation
- Electron Paramagnetic Resonance and Ferromagnetic Resonance
- Signal Detection
- Modern Topics and Applications of Magnetic Resonance
SkriptClass Notes and Handouts
Literatur1) Charles Slichter, "Principles of Magnetic Resonance"
2) Anatole Abragam, "The Principles of Nuclear Magnetism"
Voraussetzungen / BesonderesBasic knowledge of quantum mechanics is not formally required but highly advantageous.