Physics of Condensed Matter and Semiconductor Devices - specialization laboratory 1101-5FS11
The choice of research topic and supervisor is made in consultation with the laboratory coordinator. In order to begin the course, a written declaration from the supervisor, together with the proposed research topic, must be submitted to the laboratory coordinator.
The student carries out experiments related to current research conducted in research groups. This enables them to become familiar with modern measurement techniques and trends in condensed matter physics.
Course coordinators
Term 2025Z: | Term 2024Z: |
Learning outcomes
- At an advanced level, the student knows experimental, observational, and numerical techniques that make it possible to design and carry out a complex physical experiment in the field of condensed matter physics and semiconductor nanostructures.
- At an advanced level, the student knows the theoretical principles governing measurement systems and research instrumentation in the field of condensed matter physics and semiconductor nanostructures.
- At an advanced level, the student knows the current state of research in the physical sciences in the field of condensed matter physics and semiconductor nanostructures.
apply the scientific method in solving problems, conducting experiments, and drawing conclusions in the field of condensed matter physics and semiconductor nanostructures.
Student is able to plan and carry out advanced experiments, simulations, or observations in the field of condensed matter physics and semiconductor nanostructures.
Student is able to perform a critical analysis of measurement results, observations, or theoretical calculations in the field of condensed matter physics and semiconductor nanostructures, including an assessment of the accuracy of the results.
The student is prepared to
consult scientific and popular-science literature in order to deepen and broaden their knowledge in the field of condensed matter physics and semiconductor nanostructures, while being aware of the risks associated with obtaining information from unverified sources, including the Internet.
Assessment criteria
The grade is proposed by the supervisor based on the student's commitment and work results.
Practical placement
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Bibliography
Scientific publications — aligned with the research topic
Additional information
Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: