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Based in contemporary experimental, theoretical and computational techniques in physics, this programme focuses on future scientific solutions and technological innovations. Particular emphasis is placed in the areas of materials physics, biotechnical physics, and theory and modelling. Examples of current engineering pursuits are the next generation batteries to power cars and smartphones, nanosized colour routing antennas and Lab-on-a-Chip solutions.
Programme descriptionCompetence in physics is of utmost importance in a range of interdisciplinary research and development areas and this programme gives you a broad and solid introduction to the experimental, theoretical and computational physics that forms the basis for the advanced technologies of today and tomorrow. The programme has a firm basis in condensed matter physics and facilitates contemporary experimental, theoretical and computational techniques in the materials science and biotechnology fields.

The materials physics profile area focuses on using a variety of tools for the experimental study of a wide range of materials. Examples of research activities in this field include studies of disordered materials such as glass or various forms of soft materials, energy related materials such as lithium batteries, hard materials and materials for specific applications such as solar cells.

In biological physics, researchers apply physical methods to study biological systems and interfaces between biological systems and inorganic structures. Work includes several experimental techniques ranging from quartz microbalances to microscopic and other optical methods, and covers many length scales from biomolecules through cells to the tissue level.

In theory and modelling, research is concentrated to computational materials physics where advanced computational methods are used to relate atomic scale description to macroscopic phenomena, and in theoretical nanophysics where a combination of analytical and numerical methods are used to analyze the behavior of nanostructures.

The programme has no compulsory courses and by choosing from a wide array of elective courses, you have the opportunity to fully tailor your own master’s degree. This provides you with an ideal preparation for careers in industry and academia, both nationally and internationally.




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Recipient: Chalmers University of Technology

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