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EBG structure to improve the B1 efficiency of stripline coil for 7 Tesla MRI

机译：EBG结构可提高7特斯拉MRI带状线线圈的B1效率

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This paper presents the first application of an EBG structure to improve the B1 efficiency of strip-line coils used for 7-Tesla Magnetic Resonance Imaging (MRI). The proposed offset multilayer electromagnetic band gap (EBG) structure is utilized as a high impedance surface behind an extended half-wavelength (meandered) dipole. It operates at 300MHz, the magnetic resonance frequency at 7 T, and comprises of electrically small cells of only 7.5% of the free-space wavelength. The reflection phase coefficient and the dispersion diagram were used to characterize the EBG structure. The MRI strip-line coil backed by our EBG structure is successful in exhibiting a stronger B1-field inside a phantom than the original design using a metallic conductor (PEC) ground plane for the coil. The quantitative improvement in B1 efficiency amounts to 47%.

机译：本文介绍了EBG结构在提高7-特斯拉磁共振成像（MRI）所用带状线线圈的B1效率方面的首次应用。所提出的偏移多层电磁带隙（EBG）结构被用作扩展的半波长（弯曲）偶极子后面的高阻抗表面。它的工作频率为300MHz，磁共振频率为7T，由仅占自由空间波长7.5％的电小电池组成。反射相位系数和色散图用于表征EBG结构。由我们的EBG结构支持的MRI带状线材线圈在幻象内部成功展现出比原始设计（使用金属导体（PEC）接地平面作为线圈）更强的B1场。 B1效率的定量提高达到47％。

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《Antennas and Propagation (EUCAP), 2012 6th European Conference on 》|2012年|p.1399- 1401|共3页
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Saleh Gameel; Solbach Klaus; Rennings Andreas;
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1. Extended Monopole Antenna Array with Individual Shield (EMAS) Coil: An Improved Monopole Antenna Design for Brain Imaging at 7 Tesla MRI [J] . Woo Myung-Kyun, Hong Suk-Min, Lee Jongho, Magnetic resonance in medicine: official journal of the Society of Magnetic Resonance in Medicine . 2016 ,第6期

机译：具有独立屏蔽（EMAS）线圈的扩展单极天线阵列：用于7 Tesla MRI的脑成像的改进单极天线设计
2. Improving the spatial accuracy in functional magnetic resonance imaging (fMRI) based on the blood oxygenation level dependent (BOLD) effect: Benefits from parallel imaging and a 32-channel head array coil at 1.5 Tesla [J] . C. Fellner, C. Doenitz, T. Finkenzeller Clinical hemorheology and microcirculation . 2009 ,第1a2期

机译：基于血液氧合水平依赖性（BOLD）效应提高功能磁共振成像（fMRI）的空间准确性：受益于并行成像和1.5特斯拉的32通道头阵列线圈
3. Improving the spatial accuracy in functional magnetic resonance imaging (fMRI) based on the blood oxygenation level dependent (BOLD) effect: Benefits from parallel imaging and a 32-channel head array coil at 1.5 Tesla [J] . C. Fellner, C. Doenitz, T. Finkenzeller, Clinical Hemorheology and Microcirculation . 2009 ,第1a2期

机译：基于血液氧合水平依赖性（BOLD）效应，提高功能磁共振成像（fMRI）的空间精度：受益于并行成像和1.5特斯拉的32通道头阵列线圈
4. EBG Structure to Improve the B1 Efficiency of Stripline Coil for 7 Tesla MRI [C] . Gameel Saleh, Klaus Solbach, Andreas Rennings European Conference on Antennas and Propagation . 2012

机译：EBG结构，提高其具有7特斯拉MRI的带状线圈的B1效率
5. Advances in Ultra-high Field 7 Tesla (T) Human MRI: Design and Methodology of Transmit (Tx) and Receive (Rx) Radio Frequency (RF) Coils [D] . Kim, Junghwan. 2018

机译：超高场7特斯拉（T）人体MRI的进步：传输（TX）和接收（RX）射频（RF）线圈的设计和方法
6. Improved B1 Homogeneity of 3 Tesla Breast MRI Using Dual-Source Parallel Radiofrequency Excitation [O] . Habib Rahbar, Savannah C. Partridge, Wendy B. DeMartini, -1

机译：使用双源极并联射频激励3特斯拉乳腺mRI的改进的B1均匀性
7. MRI visualization of small structures using improved surface coils [O] . Rivera Manuel, Vaquero Juan José, Santos Andrés, 1998

机译：使用改进的表面线圈对小结构进行mRI可视化

EBG structure to improve the B1 efficiency of stripline coil for 7 Tesla MRI

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