Puchnin V., Jandaliyeva A., Solomakha G., Hurshkainen A., Shchelokova A. Bilateral quadrature wireless coil for breast MRI. 23rd International Conference on Electromagnetics in Advanced Applications, ICEAA 2022. 2022. pp. 182-184.
Bore integrated coil for whole-body imaging at 7 Tesla based on patch antennas
Improving fMRI at 1.5T with high permittivity materials. Spinus conference.
Puchnin V., Jandaliyeva A., Hurshkainen A., Solomakha G., Nikulin A., Petrova P., Lavrenteva A., Andreychenko A., Shchelokova A. Quadrature transceive wireless coil: Design concept and application for bilateral breast MRI at 1.5 T. Magnetic Resonance in Medicine. 2022. pp. in press.
Balafendiev R., Solomakha G., Dubois M., Abdeddaim R., Enoch S., Simovski C., Glybovski S. An Antenna Based on Three Coupled Dipoles with Minimized E-field for Ultra-high-field MRI. IEEE Transactions on Antennas and Propagation. 2022. Vol. 70. No. 10. pp. 9083-9092.
Seregin P., Burmistrov O.I., Solomakha G.A., Kretov E.I., Olekhno N.A., Slobozhanyuk A.P. Energy-Harvesting Coil for Circularly Polarized Fields in Magnetic Resonance Imaging. Physical Review Applied. 2022. Vol. 17. No. 4. pp. 044014.
Brui E.A., Mikhailovskaya A.A., Solomakha G.A., Efimtcev A., Andreychenko A., Shchelokova A. Volumetric wireless coil for wrist MRI at 1.5 T as a practical alternative to Tx/Rx extremity coil: a comparative study. Journal of Magnetic Resonance. 2022. Vol. 339. pp. 107209.
Puchnin V., Solomakha G., Nikulin A., Magill A.W., Andreychenko A., Shchelokova A. Metamaterial inspired wireless coil for clinical breast imaging. Journal of Magnetic Resonance. 2021. Vol. 322. pp. 106877.
Circularly polarized coil for 1.5 T MRI RF harvesting
Quadrature Tx/Rx wireless coil for targeted breast MRI at 1.5 T
Seregin P., Burmistrov O., Solomakha G.A., Kretov E.I., Olekhno N.A., Slobozhanyuk A.P. Circularly polarized RF coil for energy harvesting in clinical MRI. Journal of Physics: Conference Series. 2021. Vol. 2015. No. 1. pp. 012134.
Solomakha G., Egorova N., Balafendiev R., Simovski C., Glybovski S. Wideband coil based on microstrip line for multiheteronuclear magnetic resonance spectroscopy. Journal of Physics: Conference Series. 2021. Vol. 2015. No. 1. pp. 012146.
Balafendiev R., Zalipaev V.V., Glybovski S.B., Solomakha G.A. Optimization of leaky-wave surface coil current using an analytical approach. Journal of Physics: Conference Series. 2021. Vol. 2015. No. 1. pp. 012011.
Solomakha G.A., Svejda J.T., Van Leeuwen C., Rennings A., Raaijmakers A., Glybovski S.B., Erni D. A self-matched leaky-wave antenna for ultrahigh-field magnetic resonance imaging with low specific absorption rate. Nature Communications. 2021. Vol. 12. No. 1. pp. 455.
Puchnin V., Nikulin A., Hurshkainen A., Solomakha G., Andreychenko A., Shchelokova A. Comparison of different wireless coils for 1.5 T bilateral breast MRI. Journal of Physics: Conference Series. 2021. Vol. 2015. No. 1. pp. 012116.
Avdievich N., Solomakha G.A., Ruhm L., Henning A., Scheffler K. 9.4 T double-tuned 13C/1H human head array using a combination of surface loops and dipole antennas. NMR in Biomedicine. 2021. Vol. 34. No. 10. pp. e4577.
Avdievich N., Solomakha G.A., Ruhm L., Nikulin A.V., Magill A.W., Scheffler K. Folded-end dipole transceiver array for human whole-brain imaging at 7 T. NMR in Biomedicine. 2021. Vol. 34. No. 8. pp. e4541.
Avdievich N., Solomakha G.A., Ruhm L., Henning A., Scheffler K. Unshielded bent folded-end dipole 9.4 T human head transceiver array decoupled using modified passive dipoles. Magnetic Resonance in Medicine. 2021. Vol. 86. No. 1. pp. 581-597.
A new RF coil for UHF MRI based on a slotted microstrip line
Avdievich N., Solomakha G.A., Ruhm L., Bause J., Scheffler K., Henning A. Bent folded-end dipole head array for ultrahigh-field MRI turns “dielectric resonance” from an enemy to a friend. Magnetic Resonance in Medicine. 2020. Vol. 84. No. 6. pp. 3453-3467.
Solomakha G.A., Svejda J., Rennings, A., Erni D., Glybovski S.B. A new RF-coil for UHF MRI based on a slotted microstrip line. Journal of Physics: Conference Series. 2020. Vol. 1461. No. 1. pp. 012168.
Ivanov V.A., Hurshkainen A.A., Solomakha G.A., Zubkov M. RF-coil with variable resonant frequency for multiheteronuclear ultra-high field MRI. Photonics and Nanostructures - Fundamentals and Applications. 2020. Vol. 38. pp. 100747.
Solomakha G.A., Hurshkainen A.A., Glybovski S.B., Andreychenko A.E. Volume metasolenoid-based coil for 23Na MRI at 7 Tesla. Journal of Physics: Conference Series. 2020. Vol. 1461. No. 1. pp. 012056.
Puchnin V., Nikulin A., Hurshkainen A., Solomakha G., Andreychenko A., Shchelokova A. Metamaterial inspired volumetric resonator for targeted MRI of the breast at 1.5T. Magnetic Resonance Materials in Physics, Biology and Medicine. 2020. Vol. 33. No. Suppl.1. pp. S44.
Solomakha G.A., Balafendiev R., Glybovski S.B. A method for current phase manipulation in RF-Cols for UHF MRI using individually driven slots. AIP Conference Proceedings. 2020. Vol. 2300. pp. 020121.
Avdievich N., Solomakha G.A., Ruhm L., Scheffler K., Henning A. Decoupling of Folded-End Dipole Antenna Elements of a 9.4 T Human Head Array Using an RF Shield. NMR in Biomedicine. 2020. Vol. 33. No. 9. pp. e4351.
A new RF coil for UHF MRI based on a slotted microstrip line
Balafendiev R.N., Solomakha G.A., Dubois M., Abdeddaim R., Simovski C.R., Glybovski S.B. A method for E-field reduction using a surface coil based on three coupled dipoles. AIP Conference Proceedings. 2020. Vol. 2300. pp. 020006.
Puchnin V., Hurshkainen A., Solomakha G., Andreychenko A., Shchelokova A. Metamaterial inspired resonator for targeted breast MRI at 1.5 T. AIP Conference Proceedings. 2020. Vol. 2300. pp. 020100.
Solomakha G., Andreychenko A., Van De Moortele P., Kroeze H., Raaijmakers A., Euwe F., Lagendijk J., Luijten P., Van Den Berg C. A coaxial RF applicator for ultra-high field human MRI. IEEE Transactions on Biomedical Engineering. 2019. Vol. 66. No. 10. pp. 2848-2854.
Solomakha G.A., Glybovski S.B., Melchakova I.V., Hennig A., Schefler K., Avdievich N. Numerical and experimental evaluation of short folded recieve-only dipoles for 9.4T human head arrays. 21st International Conference on Electromagnetics in Advanced Applications, ICEAA 2019. 2019. pp. 489-491.
Zubkov M.A., Andreychenko A.E., Kretov E.I., Solomakha G.A., Melchakova I.V., Fokin V.A., Simovski C.R., Belov P.A., Slobozhanyuk A.P. Ultrahigh field magnetic resonance imaging: new frontiers and possibilities in human imaging. Physics-Uspekhi. 2019. Vol. 62. No. 12. pp. 100-120.
Ivanov V.A., Hurshkainen A.A., Solomakha G.A., Zubkov M. Variable band RF-coil for multiheteronuclear MRI. Journal of Physics: Conference Series. 2019. pp. in press?.
Avdievich N., Solomakha G., Ruhm L., Scheffler K., Henning A. Evaluation of Short Folded Dipole Antennas as Receive Elements of Ultra-High-Field Human Head Array. Magnetic Resonance in Medicine. 2019. Vol. 82. No. 2. pp. 811-824.
Glybovski S.B., Solomakha G., Hurshkainen A.A., Nikulin A., Dobrykh D.A., Abdeddaim R., Slobozhanyuk A.P., Shchelokova A.V., Kozachenko A.V., Efimtcev A.Y., Melchakova I.V., Enoch S., Belov P.A. Surface and Volumetric Modes of Resonators Based on Periodic Wires for MRI Applications. 13th European Conference on Antennas and Propagation, EuCAP 2019. 2019. pp. 8739991.
Зубков М.А., Андрейченко А., Кретов Е.И., Соломаха Г.А., Мельчакова И.В., Фокин В.А., Симовский К.Р., Белов П.А., Слобожанюк А.П. Магнитно-резонансная томография человека в сверхвысоком поле: новые задачи и новые возможности. Успехи физических наук. 2019. Т. 189. № 12. С. 1293–1314.
Solomakha G., Leeuwen C.V., Raaijmakers A., Simovski C., Popugaev A., Abdeddaim R., Melchakova I., Glybovski S. The dual-mode dipole: A new array element for 7T body imaging with reduced SAR. Magnetic Resonance in Medicine. 2019. Vol. 81. No. 2. pp. 1459-1469.
A new dual-mode RF-coil array element for 7T MRI based on dipole antennas
Solomakha G.A., Glybovski S.B., Abbdedaim R., Simovski C.R., Melchakova I.V. A Radiofrequency Coil Based on Hybridized Modes Two Resonant Dipoles. Journal of Physics: Conference Series. 2018. Vol. 1092. No. 1. pp. 012142.
Волноводно-щелевые антенные решётки с электроным управлением лучом
Российская Федерация, Санкт-Петербург