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Experimental physics of modern materials (A): Photophysics (EPM-MAT, PW)
- Lecturer
- Dr. Daniel Niesner, Akad. Rat
- Details
- Vorlesung
, ECTS studies, ECTS credits: 5, Sprache Englisch
Time and place: Mon 8:30 - 10:00, HF
- Fields of study
- PF PhM-MA ab 1
WF Ph-MA ab 1
WF Ph-BA ab 5
WF PhM-BA ab 5
- Contents
- Experimental physics of modern materials: Photophysics
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.Contents:
band-to-band transitions in direct and indirect semiconductors
electron-hole interaction and excitons, especially in low-dimensional systems
electron-phonon coupling and polaron formation
phototransport of delocalized carriers and localized excitations
radiative and nonradiative recombination
introduction to solar cells, photodetectors, and light-emitting diodes
the Shockley-Queisser efficiency limit in solar cells
concepts for next-generation photovoltaics beyond the Shockley-Queisser limit
- Recommended literature
- Best adapted to the lecture:
Ibach, Lüth, Solid state physics: An Introduction to Principles of Materials Science
Ibach, Lüth, Festkörperphysik: Einführung in die Grundlagen
(covers large parts of the lecture, not item 4.) Further reading:
Ashcroft, Mermin, Solid state physics, revised edition 2016
Ashcroft, Mermin, Festkörperphysik
Ketterson, The physics of Solids
Any other textbook on solid state physics
- ECTS information:
- Title:
- Experimental physics of modern materials: Methods
- Credits: 5
- Additional information
- Assigned lectures
- UE: Experimental physics of modern materials (A): Photophysics
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Lecturers: Dr. Daniel Niesner, Akad. Rat, Tutoren
Time and place: every 2. week Wed 8:15 - 9:45, SR 00.732
- Verwendung in folgenden UnivIS-Modulen
- Startsemester WS 2018/2019:
- Experimental physics of modern materials (A): Photophysics (EPM-MAT, PW)
- Department: Chair of Solid-State Physics
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