Improvement of spin-exchange optical pumping of xenon-129 using in situ NMR measurement in ultra-low magnetic field

机译：利用超低磁场原位NMR测量改进Xenon-129的自旋交换光泵浦

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Hyperpolarized (HP) noble gas has attracted attention in NMR / MRI. In an ultra-low magnetic field, the effectiveness of signal enhancement by HP noble gas should be required because reduction of the signal intensity is serious. One method of generating HP noble gas is spin exchange optical pumping which uses selective excitation of electrons of alkali metal vapor and spin transfer to nuclear spin by collision to noble gas. Although SEOP does not require extreme cooling or strong magnetic field, generally it required large-scale equipment including high power light source to generate HP noble gas with high efficiency. In this study, we construct a simply generation system of HP xenon-129 by SEOP with an ultra-low magnetic field (up to 1 mT) and small-scale light source (about 1W). In addition, we measure in situ NMR signal at the same time, and then examine efficient conditions for SEOP in ultra-low magnetic fields.

机译：超极化（HP）稀有气体在NMR / MRI中引起了关注。在超低磁场中，由于信号强度的降低很严重，因此需要使用HP惰性气体增强信号的有效性。产生HP稀有气体的一种方法是自旋交换光学泵浦，它使用碱金属蒸气电子的选择性激发，并通过与稀有气体的碰撞而自旋转移到核自旋。尽管SEOP不需要极端的冷却或强磁场，但通常需要包括高功率光源在内的大型设备才能高效地产生HP稀有气体。在这项研究中，我们通过SEOP构建了HP xenon-129的简单生成系统，该系统具有超低磁场（高达1 mT）和小尺寸光源（约1W）。此外，我们同时测量原位NMR信号，然后研究在超低磁场中SEOP的有效条件。

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《Imaging, Manipulation, and Analysis of Biomolecules, Cells and Tissues XVI》|2018年|104971P.1-104971P.6|共6页
会议地点 San Francisco(US)
作者
Shun Takeda; Hiroshi Kumagai;
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作者单位

Graduate School of Medical Sciences, Kitasato University, 1-15-1, Sagamihara-shi, Kanagawa, Japan 252-0373;

Graduate School of Medical Sciences, Kitasato University, 1-15-1, Sagamihara-shi, Kanagawa, Japan 252-0373;

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原文格式 PDF
正文语种 eng
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关键词
Magnetic Resonance Imaging(MRI); Ultra-Low Field MRI (ULF-MRI); Hyperpolarized Xenon-129 Spin-Exchange optical Pumping(SEOP);

机译：磁共振成像（MRI）；超低场MRI（ULF-MRI）;超极化Xenon-129自旋交换光泵浦（SEOP）;
入库时间 2022-08-26 14:33:05

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专利

1. In-situ measurement of magnetic field gradient in a magnetic shield by a spin-exchange relaxation-free magnetometer [J] . Fang Jian-Cheng, Wang Tao, Zhang Hong, 中国物理：英文版 . 2015,第006期

机译：利用自旋交换无弛豫磁力计原位测量磁屏蔽罩中的磁场梯度
2. Direct Detection of Magnetic Resonance Signals in Ultra-Low Field MRI Using Optically Pumped Atomic Magnetometer With Ferrite Shields: Magnetic Field Analysis and Simulation Studies [J] . Oida T., Tsuchida M., Kobayashi T. Magnetics, IEEE Transactions on . 2012,第11期

机译：使用带铁氧体屏蔽的光泵原子磁力仪直接检测超低场MRI中的磁共振信号：磁场分析和仿真研究
3. OPTICAL PUMPING MAGNETIC RESONANCE IN HIGH MAGNETIC FIELDS - MEASUREMENT OF HIGH FIELD SPIN EXCHANGE CROSS SECTIONS [J] . Augustine MP., Zilm KW. Chemical Physics Letters . 1997,第1a2期

机译：高磁场中的泵浦磁共振-高磁场自旋交换截面的测量。
4. Improvement of spin-exchange optical pumping of xenon-129 using in situ NMR measurement in ultra-low magnetic field [C] . Shun Takeda, Hiroshi Kumagai International Symposium on Imaging, Manipulation, and Analysis of Biomolecules, Cells, and Tissues . 2018

机译：超低磁场中使用原位NMR测量的Xenon-129自旋交换光学泵浦的改进
5. Ultra-low field magnetic resonance using optically pumped noble gases and SQUID detection. [D] . Wong-Foy, Annjoe Golangco. 2001

机译：使用光泵浦稀有气体和SQUID检测的超低场磁共振。
6. Compensation System for Biomagnetic Measurements with Optically Pumped Magnetometers inside a Magnetically Shielded Room [O] . Anna Jodko-Władzińska, Krzysztof Wildner, Tadeusz Pałko, 2020

机译：用于磁屏蔽室内光学泵浦磁力计的生物磁测量补偿系统
7. Calibration of a Fast Field-Cycling NMR Relaxometer for Measurements on Biological Samples that Extend to Ultra-Low Magnetic Fields [O] . Zampetoulas Vasileios, Broche Lionel, Lurie David John 2016

机译：用于扩展到超低磁场的生物样品测量的快速场循环NMR弛豫仪的校准
8. Measurement of Asymmetric Optical Pumping of Ions Accelerating in a Magnetic-field Gradient [R] . Sun, X., Scime, W., Miah, M., 2004

机译：磁场梯度加速离子的非对称光泵浦测量

Improvement of spin-exchange optical pumping of xenon-129 using in situ NMR measurement in ultra-low magnetic field

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