随钻核磁共振测井仪探测特性研究

随钻核磁共振测井是继电缆核磁共振测井之后的重要进步,具有直接探测原状地层孔隙度、束缚水、渗透率和流体饱和度等特点,受到广泛关注. 随钻核磁共振测井需要在更加恶劣的环境下作业,对探头尤其是对磁体有更高的要求. 该文研究随钻核磁共振测井的探测特性. 基于测量环境和工作方式,分析了随钻核磁共振测井静磁场设计中的特殊问题;利用有限元方法,分别模拟了MRIL-WD（哈里伯顿）、proVISION（斯伦贝谢）和MagTrak（贝克休斯） 3种随钻核磁共振测井仪的静磁场分布;根据数值模拟结果,提出可以抑制仪器随钻具运动（轴向转动、纵向钻进和径向振动）对测量的影响的随钻核磁共振测井静磁场方案,为自主随钻核磁共振测井仪器的设计、实现和优化提供了思路和注意事项.     

半金属磁体

半金属磁体是近些年来日益受到关注的一种新材料，也是物质具有一种新形态，在半金属磁体的能带结构中，两个自旋子能带分别具有金属性与绝缘性，从而产生自旋完全极化的传导电子，这一特性使它有可能在新一代微电子设备中发挥重要作用，并为极化输运理论及自旋电子学的研究开辟崭新的领域，文章主要介绍了半金属磁体的命名、特征和几种典型的材料，回顾了在寻找半金属磁体过程中的理论计算和实验研究的发展历程，并对巳在半金属磁体材料中发现的一些具有应用价值的磁输运现象作了阐述。     

扰动对有机磁体器件自旋极化输运特性的影响

基于紧束缚模型和格林函数方法,研究了有机磁体晶格扰动和侧基自旋取向扰动对金属/有机磁体/金属三明治结构有机自旋器件自旋极化输运特性的影响.计算结果表明:晶格扰动的存在降低了器件的起始偏压,减小了导通电流,并使得电流-电压曲线的量子台阶效应不再显著,扰动不太强时电流仍呈现较高的自旋极化率;而侧基自旋取向扰动减小了体系的自旋劈裂,增加了器件的起始偏压,低偏压下随着扰动的增强器件电流及其自旋极化率明显降低.进一步模拟了温度对器件自旋极化输运的影响. 关键词： 有机自旋电子学 有机磁体 自旋极化输运 自旋过滤     

Mott散射和电子极化术

文章回顾了Mott散射过程及其物理图像，介绍了Sherman函数的定义、计算和测量，简述了探测自旋极化电子的仪器——Mott电子极化仪的一般设计，列举了获得自由极化电子的几种方法和原理．     

氧化物纳米材料表面结构与性质的固体核磁共振波谱研究

氧化物纳米材料的多种应用与其表面结构和性质密切相关.近年来,固体核磁共振波谱在相关研究中提供了关键信息.本综述总结了近期发展的、以固体核磁共振波谱为主的两种表征氧化物纳米材料表面结构和性质的方法,包括表面选择的同位素标记¹⁷O核磁共振波谱与动态核极化表面增强核磁共振波谱,并对氧化物纳米材料的固体核磁共振波谱研究的发展趋势进行了展望.     

电阻式核磁共振测量的最新进展

电阻式核磁共振(RDNMR)测量是1988年由德国马普所的von Klitzing研究小组针对GaAs二维电子气中少量核自旋的探测而提出的一种具有超高灵敏度的实验技术. 目前, RDNMR已经成为研究单层或双层GaAs二维电子气核自旋和电子自旋特性的重要手段. 由于为实现电阻式核磁共振测量所建立的动态核极化方法强烈依赖于GaAs特有的材料属性, 至今这一技术一直没有扩展应用到其他半导体低维系统中. 最近,本研究小组发展了一种动态核极化新方法,成功实现了对典型窄带半导体锑化铟(InSb) 二维电子气的电阻式核磁共振测量.本文在介绍电阻式核磁共振测量工作原理及已建立的典型动态核极化方法的基础上,着重讨论所提出的动态核极化新方法的机理、 实验结果以及对今后研究的展望.     

光学极化度测量仪的研制及弱光Stokes参数的测量

极化电子束在物理学及其相关领域应用十分广泛,要深入研究这些应用必须对电子束的极化度进行精确测量,通常测量电子束极化度的仪器有两种：Mott极化度测量仪和光学极化度测量仪。因光学极化度测量仪与Mott极化度测量仪相比有许多优点而倍受关注。文章首先阐述了光学极化度测量仪的理论基础和实验原理,然后介绍了所研制光学极化度测量仪的设计方案和物理结构,最后给出了用该光学极化度测量仪测量弱光的Stokes参数的结果。     

基于散射实验极化靶的2.5T/1.3K的动态核极化(DNP)系统的开发

动态核极化法(Dynamic Nuclear Polarization,DNP)是利用热平衡下的电子在磁场中的高自旋极化率转移到原子核自旋的技术,从而极大的提高原子核自旋极化率.多种动态极化靶材料已广泛的用于自旋物理散射实验.本文介绍一种简单实用,共同开发的日本山形大学DNP系统,包括超导磁场,氦4蒸发恒冷器,微波系统以及NMR核磁共振检测系统,测得中子靶材料氘带丁醇(D-butanol)中氘核的极化率在2.5 T/1.3 K达到+6.5%.     

动态核极化核磁共振波谱学

正在发展的固体高分辨动态核极化（ＤＮＰ）技术是核磁共振波谱学中一个崭新的分支．ＤＮＰ是一种电子－核的双共振技术，它利用未配对电子与核的相互作用，在强磁场下用微波激发自由电子跃迁，使相关核的自旋能级分布发生极化，不仅大大增强了核磁共振方法的灵敏度，还提供了微观电子结构的宝贵信息，具有相当重要的理论研究及实际应用价值．目前，ＤＮＰ方法的应用日益广泛，已成为核磁共振波谱学中一种重要的手段．     

脉冲动态核极化增强的NMR 和MRI 系统研究

该文介绍了一种自行设计和构建的可扩展脉冲动态核极化谱仪,可以实现核磁共振波谱与磁共振成像的功能．该仪器的新颖设计主要有：1) 采用基于PCIe 的分布式总线结构,能够极大地提高数据传输效率和通信可靠性,实现精确控制脉冲序列;2) 采用外部高速的DDR 芯片存储脉冲序列元素和FID 数据,可以极大的提高脉冲序列的执行速度,减少快速成像序列的TR 时间间隔;3) 采用时钟移相技术,可以精确产生分辨率为纳秒级别的数字脉冲．最后对该仪器的动态核极化-磁共振波谱与核磁共振成像功能进行了实验验证．     

基于磁通门和时域数字鉴频的磁场锁定系统

永磁型磁共振仪器的磁体易受温度和其他环境磁场干扰,造成主磁场波动,进而影响仪器测量的重复性和准确性.本文讨论了两种解决磁场波动的锁定方法：一方面,通过磁通门传感器对环境波动引起的瞬态磁场进行高灵敏探测,然后采用现场可编程门阵列进行实时处理并计算磁场补偿量;另一方面,针对环境温度变化引起的缓慢磁场偏移,则采用时域数字鉴频锁场方法,在对锁样品进行射频激发后,将磁共振信号通过混频变换到较低的频率范围,再转换为方波,然后直接送入现场可编程门阵列进行周期测量,并计算磁场补偿量.将两种方法获得的磁场补偿量叠加后,再转换为电流信号驱动安装在磁体上的B₀补偿线圈,并研制了一套磁场锁定系统,以实现对磁场的锁定. 在0.5 T食品快检磁共振分析仪上进行测试验证,结果显示当受到瞬态干扰时,可将磁场稳定在±4 Hz（对应磁场为±0.093 9 μT）范围内,同时也可以精准测量温度造成的磁场偏移,该结果验证了本文磁场锁定方法的可行性.     

Overhauser DNP and EPR in a Mobile Setup: Influence of Magnetic Field Inhomogeneity

Power-dependent Overhauser dynamic nuclear polarization (DNP) enhancements and continuous-wave electron paramagnetic resonance (EPR) spectra of nitroxide radicals were measured in the magnetic field of a mobile Halbach-array permanent magnet and compared with results from a commercially available electromagnet. DNP saturation factors for varying microwave power were obtained from both measurement series and used to investigate how the increased magnetic field inhomogeneity present in the Halbach magnet affects the saturation efficiency. An EPR detection system was designed to allow continuous-wave EPR measurements at microwave power up to 20?W. Our results show that despite the lower magnetic field homogeneity, a Halbach-array magnet can be used for EPR and DNP-enhanced nuclear magnetic resonance of high quality providing almost the same performance as a more homogeneous electromagnet.     

Conceptual Design Study of a Novel Gyrotron for NMR/DNP Spectroscopy

In this paper we present some initial results from a conceptual design study focused on the development of a novel frequency tunable gyrotron for nuclear magnetic resonance (NMR) spectroscopy with signal enhancement based on the utilization of high field radiation and dynamic nuclear polarization (DNP) technique. The first variants of both the electron optical system and the resonant cavity which have been designed aiming continuous frequency tunability in a broad frequency band are presented and discussed. The selected method for frequency tunability is based on the excitation of higher order axial modes and smooth transition between them. It was selected after a critical examination of the known theoretical and practical results related to the frequency control in gyrotrons. It is believed that the current conceptual design is an appropriate basis for development of the next (optimized) design which will include also a detailed design of other components (mode converter, output window etc.) and magnetic circuit (superconducting magnet and supplementary solenoids) as well as for the overall mechanical design and fabrication of the prospective gyrotron.     

Optical pumping nuclear magnetic resonance system rotating in a plane parallel to the quantization axis

A model of an optical pumping nuclear magnetic resonance system rotating in a plane parallel to the quantization axis is presented. Different coordinate frames for nuclear spin polarization vector are introduced, and theoretical calculation is conducted to analyze this model. We demonstrate that when the optical pumping nuclear magnetic resonance system rotates in a plane parallel to the quantization axis, it will maintain a steady state with respect to the quantization axis which is independent of rotational speed and direction.     

轴对称高场超导磁体电磁应力有限元分析方法

核磁共振成像和核磁共振谱仪是高场超导磁体的主要应用领域.高场超导磁体通常具有较高的磁场和运行电流,在运行过程中超导线会产生较高的电磁应力,其临界特性将发生退化,影响磁体的稳定性.开展高场超导磁体的电磁应力精确分析显得尤为必要.本文发展了一种快速有效的有限元分析方法,第一步,为整个超导磁体系统建立平均有限元模型,采用传统的电磁-结构耦合方法求解电磁应力,获得最大应力位置;第二步,对最大应力所在的超导线圈建立详细有限元模型,采用单积分-结构分析方法精确求解每一组分中电磁应力.基于该模型研究了500 MHz NMR超导磁体的电磁应力.该分析方法也可以用于超导磁体冷却过程中的热应力分析.为高场超导磁体设计和建造提供有益的理论依据.     

川西致密气藏二维核磁共振测井优化设计与应用

二维核磁共振（NMR）测井在储层参数计算与流体性质判别应用中的作用逐渐受到重视.然而在川西致密气藏开展二维NMR测井应用之初,遇到了现有观测模式下资料采集效率较低、测井结果与地质条件不匹配等难题.通过对比两种常用的二维NMR测井方法,开展致密气藏二维NMR测井观测模式设计方法研究,结合致密气藏实际应用效果分析,明确了横向弛豫时间-纵向弛豫时间（T₂-T₁）方法比横向弛豫时间-自扩散系数（T₂-D）方法更适用于致密气藏,总结了一套致密气藏二维NMR测井观测模式设计流程与参数取值方法,设计出了适用于致密气藏的观测模式TGR01（tight gas reservoir 01）.新设计的观测模式在致密气藏的应用效果优于现有的二维NMR测井观测模式,结合T₂-T₁方法可以有效识别储层中的流体信号,解决致密气藏综合评价难题.     

Equivalent magnetic dipole method used to design gradient coil for unilateral magnetic resonance imaging

The conventional magnetic resonance imaging(MRI) equipment cannot measure large volume samples nondestructively in the engineering site for its heavy weight and closed structure. In order to realize the mobile MRI, this study focuses on the design of gradient coil of unilateral magnet. The unilateral MRI system is used to image the local area above the magnet. The current density distribution of the gradient coil cannot be used as a series of superconducting nuclear magnetic resonance gradient coils, because the region of interest(ROI) and the wiring area of the unilateral magnet are both cylindrical side arc surfaces. Therefore, the equivalent magnetic dipole method is used to design the gradient coil, and the algorithm is improved for the special case of the wiring area and the ROI, so the X and Y gradient coils are designed.Finally, a flexible printed circuit board(PCB) is used to fabricate the gradient coil, and the magnetic field distribution of the ROI is measured by a Gauss meter, and the measured results match with the simulation results. The gradient linearities of x and y coils are 2.82% and 3.56%, respectively, less than 5% of the commercial gradient coil requirement.     

Magnetic relaxation dispersion probe

The magnetic field dependence of nuclear spin-lattice relaxation rates provides a powerful approach to characterizing intra and intermolecular dynamics. NMR spectrometers that provide extensive magnetic relaxation dispersion profiles may switch magnetic field strengths rapidly by either moving the sample or by changing the current in an electromagnet. If the sample is moved, the polarization and detection fields may be very high, which provides both high sensitivity and resolution. This report summarizes the design of a pneumatic sample transport system for glass sample containers that may be used in either a dual magnet spectrometer or in a single magnet system that exploits the fringe field as the secondary magnetic field.     

Effects and Corrections for Mobile NMR Measurement

Nuclear magnetic resonance (NMR) under motion has drawn significant attention in recent years. Motion of the NMR probe has serious effects on NMR measurement. For example, NMR logging normally runs at downhole condition with tool motion at a speed of 30 ft/min. We propose here methods for motion corrections of NMR data based on the quantitative analysis of motion effects on polarization and echo acquisition. We also produced a multi-functional NMR scanning system to verify the theoretical analysis. Presented experiments demonstrate that the theoretical and experimental results match very well.     

高性能核磁共振弛豫分析仪匀场系统的设计与实现

磁场的高均匀性是高性能核磁共振弛豫分析仪实现短弛豫时间样品和微弱信号核磁共振（NMR）检测的基本保障.该文以0.45 T双极型永磁体作为设计核心部件,在大范围磁体空间-25.4 mm球空间（DSV）内,基于目标场法设计了X、Y、Z、XY、XZ、YZ、Z²共7组有源匀场线圈,根据线圈供电要求,设计了可编程恒流电源,搭建了可用于高性能核磁共振弛豫分析仪磁体的有源匀场系统,介绍了系统的基本结构、设计过程及匀场方法.实验测试结果验证了大范围磁体空间内该匀场系统的实用性.