Applied Plasma
Course, Bachelor's level, 1TE212
Summer 2023 Summer 2023, Uppsala, 50%, On-campus, English
- Location
- Uppsala
- Pace of study
- 50%
- Teaching form
- On-campus
- Instructional time
- Daytime
- Study period
- 5 June 2023–13 August 2023
- Language of instruction
- English
- Entry requirements
-
60 credits in science/engineering including a basic course in electromagnetism or solid state physics.
- Selection
-
Higher education credits in science and engineering (maximum 240 credits)
- Fees
-
If you are not a citizen of a European Union (EU) or European Economic Area (EEA) country, or Switzerland, you are required to pay application and tuition fees.
- First tuition fee instalment: SEK 16,250
- Total tuition fee: SEK 16,250
- Application deadline
- 15 March 2023
- Application code
- UU-64301
Admitted or on the waiting list?
- Registration period
- 4 May 2023–5 June 2023
- Information on registration from the department
Summer 2024 Summer 2024, Uppsala, 50%, On-campus, English
- Location
- Uppsala
- Pace of study
- 50%
- Teaching form
- On-campus
- Instructional time
- Daytime
- Study period
- 3 June 2024–12 August 2024
- Language of instruction
- English
- Entry requirements
-
60 credits in science/engineering including a basic course in electromagnetism or solid state physics.
- Selection
-
Higher education credits in science and engineering (maximum 240 credits)
- Fees
-
If you are not a citizen of a European Union (EU) or European Economic Area (EEA) country, or Switzerland, you are required to pay application and tuition fees.
- First tuition fee instalment: SEK 16,250
- Total tuition fee: SEK 16,250
- Application deadline
- 15 March 2024
- Application code
- UU-64301
Admitted or on the waiting list?
- Registration period
- 26 April 2024–3 June 2024
- Information on registration from the department
About the course
This course describes key mechanisms controlling plasma reactive processes and properties of process products. The course provides insight into industrial and environmental plasma applications, also for cold plasma at atmospheric pressure, and the criteria for plasma-assisted processes. Relationships between plasma parameters and properties of the treated surface and/or material are explained. Individual types of plasma reactors for material and coating technology, in nanobio applications and environmental technology are described.
The course is read intensively in weeks 24-26 in June and week 33 in August, with a break in between, including one-week self-study.