给出一种用于核磁共振谱仪的脉冲场梯度单元的详细设计。
The design of a pulsed field gradient unit for USES on NMR spectrometers is discussed.
在常规核磁共振谱仪上自行设计和研制了一套磁共振微成象系统。
An NMR micro-imaging system was developed on a conventional NMR spectrometer.
本实用新型涉及一种核磁共振谱仪系统中的一个重要部件——磁体。
The utility model relates to a magnet which is an important component in a nuclear magnetic resonance spectrometer system.
磷磁共振谱仪(31 PMRS)是无损检测骨骼肌能量代谢的金标准。
Phosphorus magnetic resonance spectroscopy ( 31P-MRS) has become a gold standard of noninvasive measurement of human skeletal muscle metabolism.
从实验操作者的角度,对微波电子自旋共振谱仪的原理及实验现象进行分析。
This article analyses the principle and experiment phenomenon of microwave ESR spectrometer from an experiment operator's standpoint.
而在许多应用场合,比如教学中,往往需要一种结构简单,体积小巧,价格便宜,集成度高的一体化核磁共振谱仪。
In many cases, in teaching, for example, what is required is this kind of NMR spectrum which is simply structured, small-sized, cheap and highly integrated.
最后给出了电气性能的测试结果和在一体化磁共振成像谱仪中应用的结果。
Results of performance test and application in the integrated MR spectrometer are given.
针对数字化MRI谱仪中射频接收器,提出了一种磁共振信号的数字解调和滤波的设计方案。
In the design of RF receiver of the digital MRI spectrometer console, a digital demodulation and filtering algorithm is presented in this thesis.
谱仪是磁共振成像设备的核心部件之一,梯度波形发生器是谱仪硬件的一个重要单元。
The spectrometer is one of the key components in the MRI system, and the gradient waveform generator is one of the important units in the spectrometer.
磁共振成像谱仪发射通道的数字化研究。
用X射线衍射仪检测了样品的结构,测量了样品的阻抗谱和电子顺磁共振谱。
The structures of the samples were analyzed by X-ray diffraction, and the impedance spectra and electron paramagnetic resonance spectra were measured.
磁共振成像谱仪梯度通道的数字化研究。
The research of digital pre-emphasis gradient waveform generator.
第三,详细讨论了磁共振成像谱仪中的脉冲序列发生器的设计思想和实现过程。
The structure of MRI spectrometer which is composed of DDS, digital receiver and pulse sequence generator etc, is described.
本文采用色一质联用仪、傅立叶红外光谱仪、核磁共振仪对神经酸及其杂质进行定性,并作详细谱图解释。
Nervonic acid and its impurities were separated and identified by GC-MS, FTlR and NMR. The diagrams are exp1ained.
本文采用色一质联用仪、傅立叶红外光谱仪、核磁共振仪对神经酸及其杂质进行定性,并作详细谱图解释。
Nervonic acid and its impurities were separated and identified by GC-MS, FTlR and NMR. The diagrams are exp1ained.
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