Name des Moduls | [117630] Quantum Imaging and Sensing | Bezeichnung des Moduls | PAFMO263 |
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 | Dr. M. Gräfe, Dr. F. Setzpfandt, Prof. Dr. A. Tünnermann |
Voraussetzung für die Vergabe von Leistungspunkten (Prüfungsform) | Written or oral examination (100%) The form of the exam will be announced at the beginning of the semester. |
Empfohlene Literatur | A list of literature and materials will be provided at the beginning of the semester. |
Unterrichtssprache | English |
Art des Moduls (Pflicht-, Wahlpflicht- oder Wahlmodul) | 128 M.Sc. 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 | Basic introduction to relevant concepts of quantumoptics • Generation of photon pairs • Fundamentals of two-photon interference • Applications of two-photon interference • Optical quantum metrology • Ghost Imaging • Quantum microscopy |
Lern- und Qualifikationsziele | Goals: The course will give a basic introduction into the usage of quantum light, in particular photon pairs, for imaging and sensing. To this end, many basic concepts and applications will be introduced and discussed. Furthermore, students will learn how to mathematically describe quantum sensing schemes in order to understand and predict their propreties. After active participation in the course, the students will be familiar with the basic concepts and phenomena of quantum imaging and sensing and will be able to apply the derived formalism to similar problems. |