Cources
| Course No. |
Title | Description | Point (ECTS) | Place |
| 10018 | Physics-1 |
To introduce the student to the basic concepts of mechanics and thermodynamics, and enable the student to solve idealized mechanical, thermodynamical and technical problems. | 10 | |
| 10022 | Physics 1 |
Introduce the student to the basic concepts of mechanics and thermodynamics, and enable the student to solve idealized mechanical, thermo-dynamically and technical problems. The student receives practice in using idealized models to describe real systems through project work. |
10 | |
| 10112 | Advanced quantum Mechanics |
To provide a more advanced understanding of the basic principles and techniques in quantum mechanics. Special emphasis is put on providing the student with skills to independently perform quantum mechanical analysis of nanostructures and solids. | 10 | E2A. F2A |
| 10303 | Condensed Matter Physics and Nanoscales Materials |
To give the student a basic understanding of the fundamental concepts of condensed matter physics and of nanometer scale materials physics with the goal of establishing a systematic basis for the development of advanced engineering materials and functional structures. | 10 | E4B, F4B |
| 10321 | Nanosystems engineering |
In the course you will learn how to use your basic knowledge of physics to analyse and design nanosystems, and to evaluate how they can be used in practice. You will learn how the different physical properties of nanostructures can be exploited to find better technological solutions. | 10 | E1A, E1B |
| 10325 | Quantum mechanical modelling og nanoelectronics |
Today simulations are based on quantum mechanical models of the systems. The goal of this course is to give you a knowledge of the basic quantum mechanical models and their use, focusing on electronic transport in nanostructures. | 5 | |
| 10326 | Electrical characterization of nanomaterials |
It is almost certain that at some point in a physics career you will have to perform measurements using electronic equipment. It is my goal to give you an introduction to the tools and techniques you will need to not just get great quality data, but understand, redesign, and troubleshoot such electrical measurement systems. | 5 | |
| 10511 | Physic Ph.d. bootcamp and network |
To provide the students with presentation training. To form the basis for a solid and fruitful network among PhD students. | 5 | |
| 10521 | Physics and technology of 2D materials . |
The course is comprised of thematic modules (structure, fabrication, electronic and optical properties and applications). The teaching is a dynamic mix of lectures, critical reading of articles, invited speakers, discussions, analysis of articles and data, computer as well as manual calculations. 40% of the teaching is in form of group work. | 10 | F2A |
| 10750 | Innovation Projects at the Physic department |
You will get the opportunity to apply the knowledge you have gained during the "Innovation in Teams" courses to projects within the Physics Department research portfolio. Through a combination of lectures, worked examples and lab exposure, you will become skilled in assessing the commercialisation potential of a scientific research project - determining whether the unique aspects of the research topic or method can be applied in a new way in a commercial context for the benefit of society. | 5 | E3B |
| 10855 | Advanced Manufactory of Micro and Nanostructures |
In this course, you will be introduced to the most advanced processes and tools in the cleanroom, and you will receive training in operating some of these tools yourself. You will learn how to engineer a specific micro/nanostructure or microdevice from a starting point defined by its desired functionality, and you will learn systematic methods for how to convert this information to appropriate choices of fabrication tools, process sequences, and characterization steps | 10 | E2A |
| 10859 | Laboratory work in Physics and Nanotechnology |
Introduce the Physics and Nanotechnology students to the laboratory work in the Physics and Nanotechnology field of study. This is achieved by conducting a series of experimental exercises in physics and basic electronics. Moreover, it is the goal to learn a systematic and quantitative approach to data analysis, and to learn basic electronics | 5 |