broadside magnetic dipole

简明释义

横向磁偶极子;

英英释义

例句

1.In our experiment, we placed a broadside magnetic dipole 侧面磁偶极子 in the center of the chamber to measure the field strength.

在我们的实验中，我们将一个 broadside magnetic dipole 侧面磁偶极子 放置在室内中央以测量场强。

2.The researchers found that the broadside magnetic dipole 侧面磁偶极子 produced a more uniform magnetic field than other configurations.

研究人员发现，broadside magnetic dipole 侧面磁偶极子 产生的磁场比其他配置更均匀。

3.During the presentation, the professor explained how a broadside magnetic dipole 侧面磁偶极子 can be used in wireless communication systems.

在演讲中，教授解释了如何在无线通信系统中使用 broadside magnetic dipole 侧面磁偶极子。

4.The design of the antenna was optimized for a broadside magnetic dipole 侧面磁偶极子 configuration to enhance its radiation pattern.

天线的设计经过优化，以适应 broadside magnetic dipole 侧面磁偶极子 配置，从而增强其辐射模式。

5.To achieve optimal performance, the broadside magnetic dipole 侧面磁偶极子 was aligned parallel to the ground plane.

为了实现最佳性能，broadside magnetic dipole 侧面磁偶极子 被平行于地面对齐。

作文

In the realm of physics, particularly in electromagnetism, the concept of a magnetic dipole is fundamental. A dipole consists of two equal and opposite magnetic charges or poles separated by a distance. When we refer to a broadside magnetic dipole (横向磁偶极子), we are discussing a specific orientation of this dipole. In this configuration, the magnetic dipole is aligned such that its axis is perpendicular to the direction of an external magnetic field. This alignment has significant implications in various applications, including antenna design, magnetic resonance imaging (MRI), and even in understanding the magnetic properties of materials.The orientation of a broadside magnetic dipole plays a crucial role in how it interacts with external magnetic fields. When placed in a uniform magnetic field, the dipole experiences a torque that tends to align it with the field. However, in the case of a broadside magnetic dipole, the dipole's orientation results in a unique interaction where the torque is maximized. This characteristic is essential in antenna theory, where the efficiency of radiation can be influenced by the orientation of the dipole relative to the incoming waves.Moreover, in magnetic resonance imaging, the understanding of how a broadside magnetic dipole behaves in a magnetic field allows for better imaging techniques. MRI relies on the principles of nuclear magnetic resonance, where the alignment of magnetic dipoles in a strong magnetic field is crucial. By manipulating the orientation of these dipoles, medical professionals can obtain clearer images of the body's internal structures.The study of broadside magnetic dipoles also extends into material science, where researchers explore how different materials respond to magnetic fields. The ability to control the orientation of magnetic dipoles within materials can lead to advancements in data storage technologies and spintronic devices, which utilize the intrinsic spin of electrons along with their charge.In summary, the term broadside magnetic dipole (横向磁偶极子) refers to a magnetic dipole oriented perpendicularly to an external magnetic field. This configuration is significant in various fields, including electromagnetism, antenna design, MRI, and material science. Understanding the properties and behaviors of broadside magnetic dipoles enhances our ability to innovate and improve technologies that rely on magnetic interactions. As research continues, the implications of this concept will undoubtedly expand, paving the way for new discoveries and applications in both theoretical and applied physics.

在物理学的领域，特别是电磁学中，磁偶极子的概念是基础性的。偶极子由两个相等且相反的磁荷或极性组成，它们之间有一定的距离。当我们提到横向磁偶极子时（broadside magnetic dipole），我们是在讨论这种偶极子的特定方向。在这种配置中，磁偶极子被对齐，使其轴线与外部磁场的方向垂直。这种对齐在各种应用中具有重要意义，包括天线设计、磁共振成像（MRI）以及理解材料的磁性特性。横向磁偶极子的方向在其与外部磁场的相互作用中起着至关重要的作用。当放置在均匀的磁场中时，偶极子会经历一个扭矩，倾向于与磁场对齐。然而，在横向磁偶极子的情况下，偶极子的方向导致独特的相互作用，其中扭矩被最大化。这一特性在天线理论中至关重要，因为偶极子的方向相对于入射波的方向会影响辐射的效率。此外，在磁共振成像中，了解横向磁偶极子在磁场中的行为能够改善成像技术。MRI依赖于核磁共振的原理，其中在强磁场中磁偶极子的对齐至关重要。通过操控这些偶极子的方向，医学专业人员可以获得身体内部结构的更清晰图像。对横向磁偶极子的研究还扩展到材料科学，研究人员探索不同材料如何响应磁场。控制材料内部磁偶极子的方向能力可以推动数据存储技术和自旋电子器件的发展，这些设备利用电子的内在自旋及其电荷。总之，术语横向磁偶极子（broadside magnetic dipole）指的是一种与外部磁场垂直对齐的磁偶极子。这种配置在电磁学、天线设计、MRI和材料科学等多个领域具有重要意义。理解横向磁偶极子的性质和行为增强了我们创新和改善依赖于磁性相互作用的技术的能力。随着研究的持续进行，这一概念的影响无疑将扩大，为理论和应用物理领域的新发现和应用铺平道路。