BMB5031215 ECTSQ1EnglishMaster
Electromagnetic fields in MRI TU/Eindhoven
FaculteitFaculty of Medical Sciences
NiveauMaster
Studiejaar2026-2027
Beschrijving
Course goals
- has acquired fundamental theory on EM-fields in MRI
- can apply low-frequency EM-field theory in MRI
- can apply RF field theory in MRI
- can apply knowledge of RF safety, tissue heating and SAR on RF coil design
- can cooperate in multi-disciplinary teams
- can simulate, build and test RF coils in MRI
Content
Period (from – till): 09 November 2026 - 29 January 2027
Course coordinator:
Renée Allebrandi, MA (course contact person)
PLEASE NOTE THAT THIS COURSE IS TAUGHT IN EINDHOVEN
This cross-departmental course teaches the fundamentals of electromagnetic field generation in MRI. The course will be provided by electrical engineering and biomedical engineering combined and will cover topics such as Biot-Savart law, gradient coils, transmission line theory, RF antenna/coils, B1+/B1-, noise, SNR, SAR, parallel imaging, numerical simulations etc. The course will be designed along the principles of challenge based learning. Therefore, the course is organized around one final goal: to simulate, build and test an RF coil for ultrahigh field MRI. For this purpose, the students are divided into multi-disciplinary groups of 3 to 5 students.
All corresponding theory will be provided to the students in pre-made modules. Modules may consist of a combination of lectures, video-lectures, reading material and exercises. Alongside of these modules, the students are expected to make progress on their design. Student groups will be supervised and monitored by a PhD-student during the course to safeguard their progress. At the end, when all coil arrays have been built, all student groups will travel to Utrecht (or use any other open-architecture MRI system) to test their coil.
Assessment is 50% based on the practical results and another 50% based on one final exam.
PLEASE NOTE THAT THIS COURSE IS TAUGHT IN EINDHOVEN
This cross-departmental course teaches the fundamentals of electromagnetic field generation in MRI. The course will be provided by electrical engineering and biomedical engineering combined and will cover topics such as Biot-Savart law, gradient coils, transmission line theory, RF antenna/coils, B1+/B1-, noise, SNR, SAR, parallel imaging, numerical simulations etc. The course will be designed along the principles of challenge based learning. Therefore, the course is organized around one final goal: to simulate, build and test an RF coil for ultrahigh field MRI. For this purpose, the students are divided into multi-disciplinary groups of 3 to 5 students.
All corresponding theory will be provided to the students in pre-made modules. Modules may consist of a combination of lectures, video-lectures, reading material and exercises. Alongside of these modules, the students are expected to make progress on their design. Student groups will be supervised and monitored by a PhD-student during the course to safeguard their progress. At the end, when all coil arrays have been built, all student groups will travel to Utrecht (or use any other open-architecture MRI system) to test their coil.
Assessment is 50% based on the practical results and another 50% based on one final exam.
Literature/study material used:
Lecture slides and exercises
Registration:
Please register at TU/e, course code 5LPE0, at least 4 weeks before start of the course. Osiris registration will be done retroactively when results from the TU/e are received.
Mandatory:
No.
Optional for students in other GSLS Master’s programme:
No.
No.
Optional for students in other GSLS Master’s programme:
No.
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