Zobrazeno 1 - 10
of 22
pro vyhledávání: '"Jerahmie Radder"'
Autor:
Myung Kyun Woo, Lance DelaBarre, Matt Waks, Jerahmie Radder, Uk-Su Choi, Russell Lagore, Kamil Ugurbil, Gregor Adriany
Publikováno v:
Sensors, Vol 21, Iss 21, p 7250 (2021)
For ultra-high field and frequency (UHF) magnetic resonance imaging (MRI), the associated short wavelengths in biological tissues leads to penetration and homogeneity issues at 10.5 tesla (T) and require antenna transmit arrays for efficiently genera
Externí odkaz:
https://doaj.org/article/c119c9cdae564401a8c01d350d677c61
Publikováno v:
Magnetic Resonance in Medicine. 89:2204-2216
Autor:
Paul Wang, Taylor Froelich, Efraín Torres, Lance DelaBarre, Parker Jenkins, Jerahmie Radder, Michael Mullen, Michael Garwood
Publikováno v:
Magnetic Resonance in Medicine. 89:2100-2108
Autor:
Myung Kyun Woo, Lance DelaBarre, Matt Waks, Russell Lagore, Jerahmie Radder, Steve Jungst, Chang-Ki Kang, Kamil Ugurbil, Gregor Adriany
Publikováno v:
IEEE Antennas and Wireless Propagation Letters. 21:1857-1861
Autor:
Jerahmie Radder, Matthew T. Waks, Gregor Adriany, Lance DelaBarre, Russell L. Lagore, Uk-Su Choi, Myung Kyun Woo, Kamil Ugurbil
Publikováno v:
Sensors, Vol 21, Iss 7250, p 7250 (2021)
Sensors (Basel, Switzerland)
Sensors
Volume 21
Issue 21
Sensors (Basel, Switzerland)
Sensors
Volume 21
Issue 21
For ultra-high field and frequency (UHF) magnetic resonance imaging (MRI), the associated short wavelengths in biological tissues leads to penetration and homogeneity issues at 10.5 tesla (T) and require antenna transmit arrays for efficiently genera
Autor:
Matthew T. Waks, Qing Yang, Riccardo Lattanzi, Andrea Grant, M. Bei Zhang, Jerahmie Radder, Gregor Adriany, Steve Jungst, Lance Dela Barre, Nader Tavaf, Kamil Ugurbil, Navid P. Gandji, Russell L. Lagore
Publikováno v:
2021 International Conference on Electromagnetics in Advanced Applications (ICEAA).
Electromagnetic simulations of ultra-high field receive coil arrays featuring 32, 64, and 128 channels are currently being performed to support of head imaging coil development for 7 and 10.5 Tesla MRI systems. Ultra-High field is a powerful tool for
Autor:
Edward J. Auerbach, Nader Tavaf, Jerahmie Radder, Andrea Grant, Steve Jungst, Russell L. Lagore, Pierre-Francois Van de Moortele, Shajan Gunamony, Kamil Ugurbil, Steen Moeller, Gregor Adriany
Publikováno v:
Magn Reson Med
PURPOSE: Receive array layout, noise mitigation, and B(0) field strength are crucial contributors to SNR and parallel-imaging performance. Here, we investigate SNR and parallel-imaging gains at 10.5 T compared with 7 T using 32-channel receive arrays
Autor:
Andrea Grant, Jan Zimmermann, Russell L. Lagore, Jerahmie Radder, Kamil Ugurbil, Gregor Adriany, Lance DelaBarre, Essa Yacoub, Steen Moeller, Noam Harel
Publikováno v:
NMR Biomed
A 32-channel radiofrequency coil was developed for brain imaging of anesthetized non-human primates (Rhesus Macaque) at 10.5 tesla. The coil is composed of an 8-channel dipole transmit/receive array, close-fitting 16-channel loop receive array headca
Autor:
Gregor Adriany, Jerahmie Radder, Qing X. Yang, Riccardo Lattanzi, Lance DelaBarre, Russell L. Lagore, Bei Zhang, Brian K. Rutt, Kamil Ugurbil
Publikováno v:
Magn Reson Med
PURPOSE: In this work we investigated how the position of the radiofrequency (RF) shield can affect the signal-to-noise ratio (SNR) of a receive RF coil. Our aim was to obtain physical insight for the design of a 10.5 T 32-channel head coil, subject
Autor:
Lance DelaBarre, Russell L. Lagore, Jan Zimmermann, Andrea Grant, Kamil Ugurbil, Gregor Adriany, Jerahmie Radder, Noam Harel, Steen Moeller, Essa Yacoub
A 32-channel RF coil was developed for brain imaging of anesthetized non-human primates (Rhesus Macaque) at 10.5 tesla. The coil is composed of an 8-channel dipole transmit/receive array, close-fitting 16-channel loop receive array headcap, and 8-cha
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::49a63dc792e76bfac1e11b7326c26d10
https://doi.org/10.1101/2020.08.27.270744
https://doi.org/10.1101/2020.08.27.270744