4020230090 Quantum Theory of Fluctuation-induced Phenomena
Digital- & Präsenz-basierter Kurs
- classroom language
- EN
- aims
- Acquisition of basic knowledge and skills of the quantum theory of fluctuation-induced phenomena,
i.e., current research areas such as Casimir - and van-der-Waals forces as well as quantum friction, methods and techniques, and open scientific questions/problems.
- requirements
- The material of the Bachelor of Physics and of the first Semesters of the Master of Physics. Especially Electrodynamics and Optics, Quantum Physics and Advanced Quantum Theory as well as Statistical Physics.
- structure / topics / contents
- Fluctuations are omnipresent in both the classical and the quantum world and they are connected with a panoply of phenomena of great importance in different areas of physics, ranging from quantum field theory to gravity, from statistical physics to cosmology. This includes multidisciplinary topics such as biophysics, optomechanics and, in general, light-matter interaction. The exact understanding of the quantum theory of fluctuation-induced phenomena is rapidly becoming important for the characterization of modern experimental set-ups and for the opportunities and challenges that they offer to nanotechnology. This lecture will discuss, among others, the following themes:
- Open quantum systems
- Quantum-Langevin Equation
- Fluctuation-Dissipation Theorems
- Casimir- and Casimir-Polder Effects
- Nonequilibrium effects (e.g. quantum friction, Heat transfer, Unruh-Hawking radiation)
- assigned modules
-
P25.4.b
P35.1
P35.3
- amount, credit points; Exam / major course assessment
- 4 SWS, 6 SP/ECTS (Arbeitsanteil im Modul für diese Lehrveranstaltung, nicht verbindlich)
Successful participation in the exercises and oral or written exam.
- contact
- Dr. Francesco Intravaia (Institut für Physik, Raum 3'312, Tel: 030 2093-82457)
- quod vide:
- http://top.physik.hu-berlin.de/teaching/summer-semester-2023/quantum-theory-fluctuation-induced-phenomena
- Moodle link:
- http://moodle.hu-berlin.de/course/view.php?id=119244