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相关概念视频

Eddy Currents01:25

Eddy Currents

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Since eddy currents occur only in conductors, magnets can separate metals from other materials. For example, in a recycling center, trash is dumped in batches down a ramp, beneath which lies a powerful magnet. Conductors in the trash are slowed by eddy currents, while nonmetals in the trash move on, separating from the metals. This works for all metals, not just ferromagnetic ones.
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Diffusion01:12

Diffusion

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Diffusion is the passive movement of substances down their concentration gradients—requiring no expenditure of cellular energy. Substances, such as molecules or ions, diffuse from an area of high concentration to an area of low concentration in the cytosol or across membranes. Eventually, the concentration will even out, with the substance moving randomly but causing no net change in concentration. Such a state is called dynamic equilibrium, which is essential for maintaining overall...
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DC Generator01:19

DC Generator

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An alternator converts mechanical energy into electrical energy that varies sinusoidally, resulting in AC current. Meanwhile, a DC generator converts mechanical energy into electrical energy, which are DC pulses with the same polarity. The construction of a DC generator is similar to that of an alternator, except that the pair of slip rings is replaced by a single split ring, also called a commutator. The commutator functions like a periodic rotary switch; it changes the contacts with the...
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AC Sources01:20

AC Sources

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Direct current is a flow of electric charge in only one direction and has a steady state of constant voltage in the circuit. Rectifiers, batteries, commutator-equipped generators, and fuel cells are some examples of devices that generate direct current. Nowadays, most applications use a time-varying voltage source. Alternating current is a flow of electric charge that periodically reverses direction. An alternating current is produced by an alternating emf that is generated in a power plant. If...
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DC Battery01:21

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A conductor needs to be a component of a path that creates a closed loop or full circuit to have a continuous current flowing through it. A current starts to flow if an electric field is created inside an isolated conductor that is not part of a full circuit. The conductor quickly develops a net positive charge at one end and a net negative charge at the other. These charges generate an electric field opposite the direction of the applied electric field, which reduces the current. Eventually,...
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Distance Corrections01:15

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To achieve precise distance measurements, especially in surveying and construction, certain corrections must be applied to account for potential sources of error like the standardization errors, temperature variations, and slope adjustments.Standardization error emerges when measurement equipment undergoes changes, such as wear, repairs, or weather impacts. To address this, surveyors compare the equipment’s readings to a standard. This process identifies any deviation that might lead to...
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相关实验视频

Updated: Feb 12, 2026

Quantifying the Relative Thickness of Conductive Ferromagnetic Materials Using Detector Coil-Based Pulsed Eddy Current Sensors
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Quantifying the Relative Thickness of Conductive Ferromagnetic Materials Using Detector Coil-Based Pulsed Eddy Current Sensors

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用多线圈交流/直流闪光阵列来纠正扩散准备的MRI采集中的流效应的动态闪光方法.

Congyu Liao1,2, Jason P Stockmann3, Zhitao Li2

  • 1Department of Radiology and Biomedical Imaging, University of California, San Francisco, California, USA.

Magnetic resonance in medicine
|February 11, 2026
PubMed
概括
此摘要是机器生成的。

一种使用AC/DC闪光阵列的新型动态B0闪光方法,在扩散准备的MRI中纠正流相位错误. 这使得高b值的成像没有信号对噪声比率损失大小稳定器.

关键词:
B0 闪光阵列线圈同时发生的场地.扩散磁力共振成像 (MRI) 扩散流的纠正纠正 流的纠正当地现场控制局

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相关实验视频

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Quantifying the Relative Thickness of Conductive Ferromagnetic Materials Using Detector Coil-Based Pulsed Eddy Current Sensors
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Noninvasive In Vivo Small Animal MRI and MRS: Basic Experimental Procedures
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Noninvasive In Vivo Small Animal MRI and MRS: Basic Experimental Procedures

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科学领域:

  • 磁共振成像技术 磁共振成像技术
  • 生物物理学的生物物理.

背景情况:

  • 扩散准备的MRI对于神经成像至关重要.
  • 来自扩散梯度的流会导致相位错误,降低图像质量.
  • 频率稳定器经常使用,但会降低信号对噪声比 (SNR).

研究的目的:

  • 开发一种动态的B0闪方法,用于纠正流诱导的扩散准备MRI的相位错误.
  • 为了实现高b值的成像,没有SNR损失.
  • 为了消除对大小稳定器的需求.

主要方法:

  • 构建了一个46通道的AC/DC闪光阵列和放大器系统.
  • 旋转回声预扫描仪测量了流诱导的相位差异.
  • 一个优化框架计算了对多次拍摄3D扩散准备的采集的补偿性闪光电流.

主要成果:

  • 交流/直流闪光阵列有效地纠正了不必要的旋转电流效应.
  • 在没有大小稳定器的情况下,实现了全脑,心脏门,多镜头3D扩散准备成像.
  • 完整的SNR被保留,使得可靠的扩散编码在b值高达2000秒/mm2.2.

结论:

  • 使用AC/DC闪光阵列的新策略可以弥补扩散准备的MRI中电流引起的相位错误.
  • 这种方法消除了对大小稳定器的需求.
  • 现在可以使用高效,高质量的扩散成像,保持信号灵敏度.