magnetic screening

简明释义

磁屏

英英释义

例句

1.Engineers implemented magnetic screening techniques to protect sensitive electronics.

工程师实施了磁屏蔽技术以保护敏感电子设备。

2.In MRI machines, magnetic screening is essential for ensuring clear images.

在MRI机器中，磁屏蔽对于确保图像清晰至关重要。

3.The new design includes magnetic screening to enhance device performance.

新设计包括磁屏蔽以提高设备性能。

4.Researchers are studying the effectiveness of magnetic screening in quantum computing.

研究人员正在研究磁屏蔽在量子计算中的有效性。

5.The laboratory uses magnetic screening to reduce interference from external magnetic fields.

实验室使用磁屏蔽来减少外部磁场的干扰。

作文

In the field of physics, particularly in the study of magnetism, the concept of magnetic screening plays a crucial role. It refers to the phenomenon where the magnetic field in a material is reduced or modified due to the presence of other materials or fields. This process is essential for understanding how different materials interact with magnetic fields and how they can be manipulated for various applications. 磁屏蔽的概念在物理学领域，尤其是在磁学研究中，扮演着至关重要的角色。它指的是由于其他材料或场的存在，材料中的磁场被减少或修改的现象。这个过程对于理解不同材料如何与磁场相互作用以及如何为各种应用进行操作至关重要。One of the most common examples of magnetic screening can be found in superconductors. Superconductors are materials that exhibit zero electrical resistance and expel magnetic fields when cooled below a certain temperature. This expulsion of magnetic fields is a direct result of magnetic screening, allowing superconductors to levitate magnets above them. The ability to manipulate magnetic fields through magnetic screening has led to significant advancements in technology, particularly in magnetic levitation trains and medical imaging devices like MRI machines. 超导体是磁屏蔽最常见的例子之一。超导体是指在低于某一温度时表现出零电阻并排斥磁场的材料。这种磁场的排斥直接源于磁屏蔽，使得超导体能够在其上方悬浮磁铁。通过磁屏蔽操纵磁场的能力在技术上取得了重大进展，特别是在磁悬浮列车和医学成像设备（如MRI机器）中。Furthermore, magnetic screening is not limited to superconductors. It also occurs in ferromagnetic materials, where the alignment of magnetic domains can lead to a reduction in the external magnetic field's influence. By understanding the principles of magnetic screening, scientists can develop materials that either enhance or diminish magnetic effects, which is vital for creating efficient electronic components and improving data storage technologies. 此外，磁屏蔽不仅限于超导体。它也发生在铁磁材料中，在这种材料中，磁畴的排列可以导致外部磁场影响的减弱。通过理解磁屏蔽的原理，科学家们可以开发出增强或减弱磁效应的材料，这对创造高效的电子元件和改善数据存储技术至关重要。In practical applications, magnetic screening is utilized in various ways. For instance, in the design of electronic devices, engineers must consider the effects of surrounding magnetic fields and use materials that provide adequate magnetic screening to prevent interference. This consideration ensures that devices operate correctly and efficiently, safeguarding sensitive components from unwanted magnetic influences. 在实际应用中，磁屏蔽以多种方式被利用。例如，在电子设备的设计中，工程师必须考虑周围磁场的影响，并使用提供足够磁屏蔽的材料以防止干扰。这种考虑确保设备正确高效地运行，保护敏感组件免受不必要的磁场影响。In conclusion, the study of magnetic screening is fundamental to both theoretical and applied physics. Its implications extend across various fields, influencing the development of new technologies and enhancing our understanding of magnetic phenomena. As research continues, the potential for magnetic screening to revolutionize industries remains vast, promising exciting advancements in the years to come. 总之，磁屏蔽的研究对于理论和应用物理学都是基础性的。它的影响跨越多个领域，影响新技术的发展并增强我们对磁现象的理解。随着研究的持续，磁屏蔽革命化各行业的潜力仍然巨大，承诺在未来几年带来令人兴奋的进步。