Microwave seminar | 28 February 2022

 
ITMO University
Coils and antennas for ultra-high field magnetic resonance imaging: current and future projects
Abstract

This talk is my application for a post-doc position at the ITMO University, Department of Physics and engineering. It will be devoted to the current and future projects on antennas and coils for human magnetic resonance and spectroscopy at fields higher than 7 T.

1. Solomakha, G., Leeuwen, C. V., Raaijmakers, A., Simovski, C., Popugaev, A., Abdeddaim, R., ... & Glybovski, S. (2019). The dual‐mode dipole: A new array element for 7T body imaging with reduced SAR. Magnetic resonance in medicine, 81(2), 1459-1469.
2. Solomakha, G., Svejda, J. T., van Leeuwen, C., Rennings, A., Raaijmakers, A. J., Glybovski, S., & Erni, D. (2021). A self-matched leaky-wave antenna for ultrahigh-field magnetic resonance imaging with low specific absorption rate. Nature Communications, 12(1), 1-11.
3. Avdievich, N. I., Solomakha, G., Ruhm, L., Bause, J., Scheffler, K., & Henning, A. (2020). Bent folded‐end dipole head array for ultrahigh‐field MRI turns “dielectric resonance” from an enemy to a friend. Magnetic resonance in medicine, 84(6), 3453-3467.
4. Avdievich, N. I., Solomakha, G., Ruhm, L., Nikulin, A. V., Magill, A. W., & Scheffler, K. (2021). Folded‐end dipole transceiver array for human whole‐brain imaging at 7 T. NMR in Biomedicine, e4541.
5. Avdievich, N. I., Solomakha, G., Ruhm, L., Henning, A., & Scheffler, K. (2021). 9.4 T double‐tuned 13C/1H human head array using a combination of surface loops and dipole antennas. NMR in Biomedicine, 34(10), e4577.