|
Vorlesungsverzeichnis >> Naturwissenschaftliche Fakultät (Nat) >> Physik >>
|
Physikalische Wahlfächer (Bachelor ab 5. Sem. und Master)
Für den Studiengang Materialphysik stehen nur die Lehrveranstaltungen mit dem Kürzel WF PhM- zur Auswahl.
|
Magnetic Resonance Imaging 1 [MRI1] -
- Dozentinnen/Dozenten:
- Frederik Laun, Andreas Maier, Armin Nagel
- Angaben:
- Vorlesung, 2 SWS, ECTS: 2,5, In der Vorlesung werden ausführlich die physikalischen und technischen Grundlagen der MRT behandelt. Es werden der technische Aufbau eines MRTs und die physikalischen Grundlagen behandelt. Das Prinzip der Datenaufnahme wird anhand verschiedener Beispiele erläutert. Fehlkodierungen bei der Datenaufnahme führen zu Bildartefakten, die sich nicht in allen Fällen vermeiden lassen. Strategien zur Erkennung und Vermeidung von Bildartefakten werden erläutert. Eine große Stärke der MRT in der medizinischen Diagnostik ist die Möglichkeit Bilder mit verschiedenen Kontrasten und funktionelle Gewebeparameter aufzunehmen. Die Entstehung der häufig verwendeten T1 und T2 gewichteten Bildkontraste wird ausführlich diskutiert. Des Weiteren werden verschiedene MRT-Sequenztechniken besprochen.
- Termine:
- Fr, 14:00 - 16:00, Hörsaal ZMPT
Auskunft: frederik.laun@uk-erlangen.de
- Schlagwörter:
- magnetic resonance imaging, mri
|
|
Experimental physics of modern materials (B): Photophysics [EPM-MAT, PW] -
- Dozent/in:
- Daniel Niesner
- Angaben:
- Vorlesung, ECTS: 5
- Termine:
- Mo, 8:30 - 10:00, Aufzeichnung auf FAU-Videoportal
- Studienrichtungen / Studienfächer:
- PF PhM-MA ab 1
WF Ph-MA ab 1
WF Ph-BA ab 5
WF PhM-BA ab 5
- Voraussetzungen / Organisatorisches:
- The lecture series will be given as an asynchronous online class, i.e. in the form of videos with recorded learning units that will be available via the FAU vide portal. Complementary slides and written summaries of the lectures will be available online via the studon portal. The exercise class will be held live online.
This course will discuss the basic photophysical processes involved in and following the optical excitation of materials. Experimental techniques will be introduced to characterize these processes, which involve the optical absorption of light, the subsequent energetic carrier relaxation, phototransport, and carrier recombination. The functionality and performance of a large number of optoelectronic components, such as solar cell absorbers, photodetectors, or emitter materials for light-emitting diodes, rely on different combinations of these steps. While they can, in principle, be observed in a large variety of condensed-matter systems, their dynamics differ strongly between bulk direct and indirect band semiconductors, (quantum) confined systems, or materials with strong carrier localization, which can arise from exciton or polaron formation. The spectroscopic and time-resolved techniques, which are commonly applied to characterize the responses of these different systems to photoexcitation, will be introduced. These include both optical and electron spectroscopy techniques.
- Inhalt:
- 1. Classical description of optical properties of solids
2. Semiclassical (semiquantummechanical) description
3. Optical transitions in crystalline solids
4. Excitons and multiparticle effects
5. Recombination and Luminescence
6. Semiconductor devices
7. Electron-phonon coupling
- Empfohlene Literatur:
- a) Broad coverage of most of the lecture:
Yu, Peter and Cardona Manuel „Fundamentals of Semiconductors: Physics and Materials Properties,“ Springer, Berlin, Heidelberg, New York, 2010
Fox, Mark „Optical properties of solids,“ Oxford University Press, Oxford, UK, 2010
b) Further reading on individual topics:
Sze „Physics of semiconductor devices“
Emin „Polarons“
c) For freshing basics:
Ibach, Lüth „Solid-state physics“ and/or Ashcroft, Mermin „Solid state physics“
Hecht „Optics“
Cohen-Tannoudji „Quantum mechanics“
|
|
Struktur kristalliner Materie II / Structure of crystalline matter II (elective course) [PW KristMat] -
- Dozent/in:
- Reinhard Neder
- Angaben:
- Vorlesung, 2 SWS, ECTS: 5, nur Fachstudium, The class will take place on-site in the Seminarroom You can join the StudOn course directly until Nov. 30
- Termine:
- Di, 8:30 - 10:00, SR Staudtstr. 3
- Studienrichtungen / Studienfächer:
- WF Ph-BA ab 5
WF Ph-MA ab 1
WF PhM-BA ab 5
WPF PhM-MA ab 1
- Voraussetzungen / Organisatorisches:
- The elective course 'Structure of crystalline matter II' builds on the content of the elective course 'Structure on crystalline matter I'
where symmetry aspects and classification of ordered, crystalline matter is in the focus of the lecture. Basic aspects of X-ray scattering are as well taught in this elective course I. Students choosing elective course II should be familiar with the aspects of symmetry in the crystalline state, with the concept of the reciprocal lattice and the Ewald construction.
StudOn link:
https://www.studon.fau.de/studon/ilias.php?ref_id=2355317&cmd=frameset&cmdClass=ilrepositorygui&cmdNode=yo&baseClass=ilRepositoryGUI
- Inhalt:
- The course 'Structure of crystalline matter II' deals with experimental X-ray scattering techniques, for studies on single crystals as well as on polycrystalline matter, which are used to extract structure information from crystalline matter.
A focus here will be on powder diffraction methods and data evaluation.
The different experimental methods will be presented in detail and selected applications will be explained.
To start with, a short introduction into the scattering of x-rays by matter will be given.
- Empfohlene Literatur:
- B.E. Warren, X-ray diffraction, Dover Publications
D.S. Sivia, Elementary scattering theory, Oxford Press
R.E. Dinnebier & J.S.L. Billinge, Powder Diffraction-Theory and
Practice, RSC Publishing
V.K. Pecharsky & P.Y. Zavalij, Fundamentals of powder diffraction
and structural characterization of materials,Springer
M. Ladd & R. Palmer, Structure determination by X-rax
crystallography
Azaroff& Buerger, The powder method, Mc Graw Hill
M de Graef & M. E. McHenry, Structure of Materials, Cambidge
Giacovazzo, Fundamentals of Crystallography, IUCR Oxford
Publications
|
|
Introduction to Astroparticle Physics [Intro Astro] -
- Dozent/in:
- Robert Lahmann
- Angaben:
- Vorlesung, 2 SWS, ECTS: 5
- Termine:
- Mo, 10:00 - 11:45, SRTL (307)
- Studienrichtungen / Studienfächer:
- WF Ph-BA ab 5
WF Ph-MA 1
- Voraussetzungen / Organisatorisches:
- The lecture provides an introduction to astrophysics and cosmology. The topics are further investigated with practical exercises.
Useful pre-knowledge: nuclear and elementary particle physics
- Inhalt:
- Basic principles of astrophysics
The high-energy universe
Detection of high-energy hadrons, photons and neutrinos
Astrophysical objects
Stars, supernovae, pulsars
Black holes, active galactic nuclei, gamma-ray bursts
Introduction to cosmology
Dark matter and dark energy
|
|
Gamma Ray Telescope in the Class Room [GammaInClass] -
- Dozent/in:
- Stefan Funk
- Angaben:
- Hauptseminar, 5 SWS, benoteter Schein, ECTS: 5
- Termine:
- Di, 10:30 - 12:00, Livestream auf FAU-Videoportal, Aufzeichnung auf FAU-Videoportal
Di, 12:15 - 14:30, Zoom-Meeting
Einzeltermine am 3.12.2020, 14.1.2021, 21.1.2021, 18:00 - 22:00, Zoom-Meeting
Lectures: 5 dates (2.11.-15.12.), Tuesdays at 10:30-12:00. Observing nights: 3 dates (3.12., 14.1., 21.1.) at 18:00-22:00. Analysis sessions: weekly Tuesday at 12:15-14:30 (starting on November 24).
- Studienrichtungen / Studienfächer:
- WF Ph-BA ab 5
WF Ph-MA ab 1
- Inhalt:
- At first the students will get an introduction to ground-based gamma-ray astronomy and will then use this knowledge for analysing real data sets by themselves. Modern analysis software will be used for this purpose. The final grade will be based on a written practical assignment that sums up the results obtained in the data analysis. This write-up is intended to resemble a publication in a scientific journal.
Activites include:
Overview of particles in cosmic rays
Introduction to ground-based gamma-ray astronomy with imaging atmospheric Cherenkov telescopes (IACTs)
Observation of gamma-ray sources
Understanding the steps from raw data to calibrated data
Analysis of data with modern software packages
Evaluate data quality
Interpretation of results
Writing a scientific publication
|
|
Complex Systems: Self-organization, game theory, discrete dynamical systems [CS3] -
- Dozent/in:
- Claus Metzner
- Angaben:
- Vorlesung mit Übung, 4 SWS, benoteter Schein, ECTS: 5, nur Fachstudium
- Termine:
- Di, 16:00 - 19:00, Raum n.V.
"Lectures and exercises online. Please visit http://tinyurl.com/cm-complex-systems for further information."
- Studienrichtungen / Studienfächer:
- WF M-BA ab 5
WF Ph-BA ab 5
WF Ph-MA ab 1
WPF LaP-SE ab 5
WF PhM-BA ab 5
WF PhM-MA ab 1
WF ILS-MA ab 1
WF ILS-BA ab 5
WF M-MA ab 1
- Inhalt:
- Synchronization, Kuramoto theory, self-organization, swarm dynamics, stigmergy, synergetics, Bayesian learning, game theory, Nash equilibrium, minimax solution, mixed strategies, imperfect information, evolutionary game theory, prisoner’s dilemma, strategies with memory, self-organizing cooperation, cellular automata, coupled map lattices, boolean networks, Kauffman N-K networks.
|
|
Modern Optics 1: Advanced Optics [PW Optics] -
- Dozentinnen/Dozenten:
- Stephan Götzinger, Pascal Del'Haye
- Angaben:
- Vorlesung, 2 SWS, ECTS: 5
- Termine:
- Mi, 10:00 - 12:00, Raum n.V.
- Studienrichtungen / Studienfächer:
- WF Ph-BA ab 5
WF Ph-MA ab 1
WF ILS-MA ab 1
PF CE-BA-TA-PO 5
WF AOT-GL ab 1
- Voraussetzungen / Organisatorisches:
- Experimentalphysik 2 und 3, Theoretische Physik 2
- Inhalt:
- Review Ray Optics, Electromagnetic Waves, Fourier Optics, Polarization
Photonic Crystals, Bragg Gratings, Supermirrors, Reference Cavities
Metal and Metamaterial Optics, Plasmonics, Guided Wave Optics, Coupling, Photonic Crystal Waveguides
Fiber Optics, Attenuation, Dispersion, Photonic Crystal Fibers
Resonator Optics
Microresonators and Applications
Integrated Optics
Acousto-Optics
Statistical Optics
Numerical Methods
Near-Field and Superresolution
Optical Interconnects and Switches
Optical Fiber Communications
|
|
|
|
|
UnivIS ist ein Produkt der Config eG, Buckenhof |
|
|