A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil

A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil

Based on the principle of birdcage coil and the decoupling theory of array coil, a design scheme for dual-nuclear magnetic resonance imaging (MRI) coil is proposed. A LC parallel trap is used to improve the adaptability of the inductive decoupling scheme. According to the design scheme and simulatio...

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Main Authors: LIAO Zhi-wen, CHEN Jun-fei, YANG Chun-sheng, ZHANG Zhi, CHEN Li, XIAO Li-zhi, CHEN Fang, LIU Chao-yang
Format: Article
Language:zho
Published: Science Press 2020-09-01
Series:Chinese Journal of Magnetic Resonance
Subjects:
magnetic resonance imaging (mri)
1h/31p dual-nuclear coil
parallel imaging
birdcage coil
trap decoupling
detuned
Online Access:http://121.43.60.238/bpxzz/EN/10.11938/cjmr20192737
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author LIAO Zhi-wen
CHEN Jun-fei
YANG Chun-sheng
ZHANG Zhi
CHEN Li
XIAO Li-zhi
CHEN Fang
LIU Chao-yang
author_facet LIAO Zhi-wen
CHEN Jun-fei
YANG Chun-sheng
ZHANG Zhi
CHEN Li
XIAO Li-zhi
CHEN Fang
LIU Chao-yang
author_sort LIAO Zhi-wen
collection DOAJ
description Based on the principle of birdcage coil and the decoupling theory of array coil, a design scheme for dual-nuclear magnetic resonance imaging (MRI) coil is proposed. A LC parallel trap is used to improve the adaptability of the inductive decoupling scheme. According to the design scheme and simulation, a 1H/31P dual-nuclear parallel MRI coil is fabricated for a 4.7 T system. Dual-nuclear parallel imaging experiments are carried out on a custom-built MRI system to verify the feasibility of the coil design.
first_indexed 2024-12-20T07:04:53Z
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1000-4556
language zho
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publishDate 2020-09-01
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spelling doaj.art-77b44291477f496bae39f4a71d87257a2022-12-21T19:49:05ZzhoScience PressChinese Journal of Magnetic Resonance1000-45561000-45562020-09-01370327328210.11938/cjmr20192737A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI CoilLIAO Zhi-wen0CHEN Jun-fei1YANG Chun-sheng2ZHANG Zhi3CHEN Li4XIAO Li-zhi5CHEN Fang6LIU Chao-yang71. State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences), Wuhan 430071, China; 2. University of Chinese Academy of Sciences, Beijing 100049, China1. State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences), Wuhan 430071, China; 2. University of Chinese Academy of Sciences, Beijing 100049, China1. State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences), Wuhan 430071, China; 2. University of Chinese Academy of Sciences, Beijing 100049, China1. State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences), Wuhan 430071, China; 2. University of Chinese Academy of Sciences, Beijing 100049, ChinaState Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences), Wuhan 430071, ChinaState Key Laboratory of Petroleum Resources and Prospecting, China University of Petroleum, Beijing 102249, China1. State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences), Wuhan 430071, China; 2. University of Chinese Academy of Sciences, Beijing 100049, China1. State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, National Center for Magnetic Resonance in Wuhan(Wuhan Institute of Physics and Mathematics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences), Wuhan 430071, China; 2. University of Chinese Academy of Sciences, Beijing 100049, ChinaBased on the principle of birdcage coil and the decoupling theory of array coil, a design scheme for dual-nuclear magnetic resonance imaging (MRI) coil is proposed. A LC parallel trap is used to improve the adaptability of the inductive decoupling scheme. According to the design scheme and simulation, a 1H/31P dual-nuclear parallel MRI coil is fabricated for a 4.7 T system. Dual-nuclear parallel imaging experiments are carried out on a custom-built MRI system to verify the feasibility of the coil design.http://121.43.60.238/bpxzz/EN/10.11938/cjmr20192737magnetic resonance imaging (mri)1h/31p dual-nuclear coilparallel imagingbirdcage coiltrap decouplingdetuned
spellingShingle LIAO Zhi-wen
CHEN Jun-fei
YANG Chun-sheng
ZHANG Zhi
CHEN Li
XIAO Li-zhi
CHEN Fang
LIU Chao-yang
A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil
Chinese Journal of Magnetic Resonance
magnetic resonance imaging (mri)
1h/31p dual-nuclear coil
parallel imaging
birdcage coil
trap decoupling
detuned
title A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil
title_full A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil
title_fullStr A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil
title_full_unstemmed A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil
title_short A Design Scheme for 1H/31P Dual-Nuclear Parallel MRI Coil
title_sort design scheme for 1h 31p dual nuclear parallel mri coil
topic magnetic resonance imaging (mri)
1h/31p dual-nuclear coil
parallel imaging
birdcage coil
trap decoupling
detuned
url http://121.43.60.238/bpxzz/EN/10.11938/cjmr20192737
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AT zhangzhi adesignschemefor1h31pdualnuclearparallelmricoil
AT chenli adesignschemefor1h31pdualnuclearparallelmricoil
AT xiaolizhi adesignschemefor1h31pdualnuclearparallelmricoil
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AT xiaolizhi designschemefor1h31pdualnuclearparallelmricoil
AT chenfang designschemefor1h31pdualnuclearparallelmricoil
AT liuchaoyang designschemefor1h31pdualnuclearparallelmricoil

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