Publications
cryogenic MRI coils - selected publicationsCryogenic MRI coils
[1] J. Wosik, F. Wang, L. M. Xie, M. Strikovski, M. Kamel, K. Nesteruk, et al., “High-Tcsuperconducting surface coil for 2 tesla magnetic resonance imaging of small animals,” IEEE Transactions on Applied Superconductivity, vol. 11, pp. 681-684, 2001. PDF
[2] J. Wosik, X. Lei-Ming, K. Nesteruk, X. Lian, J. A. Bankson, and J. D. Hazle, “Superconducting single and phased-array probes for clinical and research MRI,” IEEE Transactions on Applied Superconductivity, vol. 13, pp. 1050-1055, 2003. PDF
[3] J. Wosik, K. Nesteruk, L.-M. Xie, M. Kamel, L. Xue, and J. A. Bankson, “Superconducting 200 MHz “Phased” Array for parallel imaging ” Proc. Intl. Soc. Mag. Reson. Med., vol. 11, p. 2392, 2004. PDF
[4] J. Wosik, K. Nesteruk, K. R. Kamel, L. Xue, L.-M. Xie, K. H. Bockhorst, et al., “Four-element 300 MHz Superconducting Array for Parallel Imaging,” Proc. Intl. Soc. Mag. Reson. Med., vol. 14, p. 527, 2006. PDF
[5] J. Wosik, L. Xue, L. M. Xie, M. R. Kamel, K. Nesteruk, and J. A. Bankson, “Superconducting array for high-field magnetic resonance imaging,” Applied Physics Letters, vol. 91, p. 183503, 2007. PDF
[6] K. R. Kamel, L. M. Xie, L. Xue, J. Wosik, K. Nesteruk, K. Bockhorst, et al., “Very High SNR Superconducting Receive-only 7 Tesla Coil for Rat Brain Imaging,” Proc. Intl. Soc. Mag. Reson. Med., vol. 15, p. 327, 2007. PDF
[7] J. Wosik, L. Xie, L. Xue, K. Nesteruk, K. Bockhorst, P.A. Narayana, “Investigation of decoupling techniques for two-element cryogenic arrays,” Proc. Intl. Soc. Mag. Reson. Med., vol. 18, p. 3910, 2010. PDF
[8] J. Wosik, A. Jesmanowicz, L. Xue, L. Xie F. S-Y. Ip, “Counter Rotating Currents Cryogenic Surface Coils,” Proc. Intl. Soc. Mag. Reson. Med., vol. 19, p. 1878, 2011. PDF
[9] Jarek Wosik, Kurt H Bockhorst, Tan I-Chih, and Ponnada A Narayana, “Superconducting Receive-only 7 Tesla Coil for High Resolution Rat Brain DTI,” Proc. Intl. Soc. Mag. Reson. Med., vol. 20, p. 436, 2012. PDF
[10] Kurt H Bockhorst, Jarek Wosik, and Ponnada A Narayana, “34 μm isotropic resolution MRI of rat brain using 55 K cryo-probe,” Proc. Intl. Soc. Mag. Reson. Med. 24, 634 (2017).
Other coils
[1] K.H. Bockhorst, P.A. Narayana, R. Liu, P. Ahobila-Vijjula, J. Ramu, M. Kamel, J. Wosik, T. Bockhorst, K. Hahn, K.M. Hasan, J.R. Perez-Polo, “Early postnatal development of rat brain: in vivo diffusion tensor imaging,” Journal of Neuroscience Research, 86(7), pp. 1520-1528, 2008. PDF
[2] K.H. Bockhorst, P.A. Narayana, J. Dulin, R. Liu, H.C. Rea, K. Hahn, J. Wosik, J.R. Perez-Polo. “Normobaric hyperoximia increases hypoxia-induced cerebral injury: DTI study in rats,” Journal of Neuroscience Research, 88(5), pp. 1146-1156, 2010. PDF