Subject: Selected Chapters in Quantum Electronics (17.DE203 )
Native organizations units: Department of Fundamentals Sciences
Study programmes of the course:
| Type of studies | Title |
|---|---|
| Doctoral Academic Studies | Power, Electronic and Telecommunication Engineering (Year: 1, Semester: Summer) |
The course objective is to provide students with a solid base in the field of modern quantum electronics, starting from electromagnetic fields and spreading, and continuing with the interaction between light and matter and the application in linear and nonlinear optical systems such as lasers and modulators.
-the ability to solve and apply Schrodinger equations focused on quantum electronics problems -the ability to understand the operation and utilization of the superconducting quantum interference device- SQUID -the ability to use and apply the methods of quantum electronics
Planck`s radiation law, photoeffect, Compton`s effect, De Broglie wave-particle duality, Schrodinger and Heisenberg formalism of quntum mechanics: examples: Quantum effects in metals and semiconductors (Fermi-Dirac statistics) Quantum nanoelectronics; quantum point, quantum wire, nanotube. Up-to-date technological applications of quantum electronics. A part of the curriculum is carried out through individual study research work in the field of Quantum Electronics. The study research work involves active reading of primary scientific sources, the organization and realization of experiments and statistical data processing, numerical simulations and writing a research paper in the specific scientific field to which the approved doctoral thesis relates to.
By becoming familiar with the extensive reading materials, students are able to reach the required level of knowledge in this field. After completing the course students should be able to read scientific materials in this field such is the IEEE Journal of Quantum Electronics. Students are also encouraged to do study research work.
| Authors | Title | Year | Publisher | Language |
|---|---|---|---|---|
| 2000 | English |
| Course activity | Pre-examination | Obligations | Number of points |
|---|---|---|---|
| Lecture attendance | Yes | Yes | 5.00 |
| Homework | Yes | Yes | 15.00 |
| Oral part of the exam | No | Yes | 50.00 |
| Term paper | Yes | Yes | 30.00 |
Assoc. Prof. Samardžić Nataša
Associate Professor
Lectures
Faculty of Technical Sciences
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© 2024. Faculty of Technical Sciences.