Name des Moduls | [117650] Semiconductor Nanomaterials | Bezeichnung des Moduls | PAFMO265 |
Studiengang | [128] - Physik | ECTS Punkte | 4 |
Arbeitsaufwand für Selbststudium | 75 | Häufigkeit des Angebotes (Modulturnus) | jedes 2. Semester (ab Sommersemester) |
Arbeitsaufwand in Präsenzstunden | 45 | Dauer des Moduls | 1 |
Arbeitsaufwand Summe (Workload) | 120 | ||
Modul-Verantwortliche/r | Prof. Dr. Isabelle Staude |
Voraussetzung für die Vergabe von Leistungspunkten (Prüfungsform) | Written examination at the end of the semester and oral presentation on a current research topic |
Empfohlene Literatur |
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Unterrichtssprache | English |
Voraussetzung für die Zulassung zum Modul | Keine |
Empfohlene bzw. erwartete Vorkenntnisse | - |
Art des Moduls (Pflicht-, Wahlpflicht- oder Wahlmodul) | 128 MSc. Physics specialisation „Optics“: required elective module 628 M.Sc. Photonics: required elective module |
Zusammensetzung des Moduls / Lehrformen (V, Ü, S, Praktikum, …) | Lecture: 2 h per week Exercise: 1 h per week |
Inhalte | The course will cover the following topics:
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Lern- und Qualifikationsziele | This course aims to convey a fundamental understanding of the physics governing the optical and optoelectronic properties of semiconductor nanomaterials. First, the fundamental optical and optoelectronic properties of bulk semiconductors are reviewed, deepening and extending previously obtained knowledge in condensed matter physics. The students will then learn about the effects of quantum confinement in semiconductor systems in one, two or three spatial dimensions, as well as about photonic effects in nanostructured semiconductors. Finally, several relevant examples of semiconductor nanomaterial systems and their applications in photonics are discussed in detail. After successful completion of the course, the students should be capable of understanding present research directions and of solving basic problems within this field of research. |