Simulation and prototyping of an X-nuclei MR coil
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Date
2020-09-11
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Dissertation
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Abstract
In this thesis, a new approach of an X-nuclei receive chain (incorporating the RF coil and the Low Noise Amplifier (LNA), respectively) is introduced. Therefore, a new simulation-based Magnetic Resonance (MR) coil design flow is introduced in this thesis as a basis for defining the requirements for the new X-nuclei receive chain.
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Medizinische Fakultät
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UKU. Klinik für Innere Medizin II
UKU. Klinik für Nuklearmedizin
UKU. Klinik für Nuklearmedizin
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DFG Project uulm
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Horneff, A., Eder, M., Hell, E., Ulrici, J., Felder, J., Rasche, V. and Anders, J. An EM
Simulation-Based Design Flow for Custom-Built MR Coils Incorporating Signal and
Noise. IEEE Transactions on Medical Imaging 37.: 527–535, 2018. DOI: 10.1109/TMI.2017.2764160
Eder, M., Horneff, A., Paul, J., Storm, A., Wunderlich, A., Hell, E., Ulrici, J., Anders, J. and Rasche, V. A signal acquisition setup for ultrashort echo time imaging operating in parallel on unmodified clinical MRI scanners achieving an acquisition delay of 3 μs. IEEE Transactions on Medical Imaging 39.: 218–225, 2020. DOI: 10.1109/TMI.2019.2924057
Horneff, A., Schlecker, B., Häberle, M., Hell, E., Ulrici, J., Rasche, V. and Anders, J. A new CMOS broadband, high impedance LNA for MRI achieving an input referred voltage noise spectral density of 200pV/sqrt(Hz). IEEE International Symposium on Circuits and Systems: 1–5, 2019. DOI: 10.1109/ISCAS.2019.8702445. ISBN 978-1-7281-0397-6
Eder, M., Horneff, A., Paul, J., Storm, A., Wunderlich, A., Hell, E., Ulrici, J., Anders, J. and Rasche, V. A signal acquisition setup for ultrashort echo time imaging operating in parallel on unmodified clinical MRI scanners achieving an acquisition delay of 3 μs. IEEE Transactions on Medical Imaging 39.: 218–225, 2020. DOI: 10.1109/TMI.2019.2924057
Horneff, A., Schlecker, B., Häberle, M., Hell, E., Ulrici, J., Rasche, V. and Anders, J. A new CMOS broadband, high impedance LNA for MRI achieving an input referred voltage noise spectral density of 200pV/sqrt(Hz). IEEE International Symposium on Circuits and Systems: 1–5, 2019. DOI: 10.1109/ISCAS.2019.8702445. ISBN 978-1-7281-0397-6
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Keywords
Jemris, 3D EM simulation, CST microwave studio, Multi-nuclei, X-nuclei, Kernspintomografie, Magnetic resonance imaging, DDC 004 / Data processing & computer science, DDC 610 / Medicine & health