Characterization of a PXIe based low-field digital NMR spectrometer

IF 0.9 4区 医学 Q4 CHEMISTRY, PHYSICAL Concepts in Magnetic Resonance Part B-Magnetic Resonance Engineering Pub Date : 2017-03-29 DOI:10.1002/cmr.b.21350
Joshua R. Biller, Karl F. Stupic, Anthony B. Kos, Tim Weilert, George A. Rinard, Yoshihiro Nakishima, John Moreland
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引用次数: 6

Abstract

A low-field nuclear magnetic resonance (NMR) instrument is an important tool for investigating a wide variety of samples under different conditions. In this paper, we describe a system constructed primarily with commercially available hardware and control software, capable of single-pulse NMR experiments. Details of the construction of the main B0 magnet are also included. The operating frequency for demonstration is 460 kHz (10 mT), however, the range of the hardware spans 700 Hz (16 μT) to 25 MHz (0.6 T). Tip angle optimizations are used to find the most narrow usable pulse width for this configuration, and the T1 of water is measured by single-pulse-saturation-recovery (SPSR) to demonstrate the potential for this system as a relaxometer. Discussions of resonator construction and efficiency, power requirements and programming strategies that would increase the utility of this system are also included. Construction of any low-field NMR system will depend on experimental interests, budget and engineering resources. A survey of other low-field NMR systems from the literature is included to aid the novice or experienced magnetic resonance scientist in consideration of how a low-field spectrometer could be constructed and used in the lab.

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基于PXIe的低场数字核磁共振谱仪的表征
低场核磁共振(NMR)仪器是在不同条件下研究各种样品的重要工具。在本文中,我们描述了一个主要由商用硬件和控制软件构建的系统,能够进行单脉冲核磁共振实验。详细结构的主要B0磁铁也包括在内。用于演示的工作频率为460 kHz (10 mT),然而,硬件范围为700 Hz (16 μT)至25 MHz (0.6 T)。尖端角优化用于找到该配置的最窄可用脉冲宽度,并通过单脉冲饱和恢复(SPSR)测量水的T1,以证明该系统作为松弛计的潜力。讨论谐振器的结构和效率,功率要求和编程策略,将增加该系统的效用也包括在内。任何低场核磁共振系统的建设都取决于实验兴趣、预算和工程资源。从文献中对其他低场核磁共振系统进行了调查,以帮助新手或有经验的磁共振科学家考虑如何在实验室中构建和使用低场光谱仪。
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来源期刊
CiteScore
2.60
自引率
0.00%
发文量
3
审稿时长
>12 weeks
期刊介绍: Concepts in Magnetic Resonance Part B brings together engineers and physicists involved in the design and development of hardware and software employed in magnetic resonance techniques. The journal welcomes contributions predominantly from the fields of magnetic resonance imaging (MRI), nuclear magnetic resonance (NMR), and electron paramagnetic resonance (EPR), but also encourages submissions relating to less common magnetic resonance imaging and analytical methods. Contributors come from both academia and industry, to report the latest advancements in the development of instrumentation and computer programming to underpin medical, non-medical, and analytical magnetic resonance techniques.
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