magneticvirgin state
简明释义
未磁化状态
英英释义
例句
1.When the magnet was demagnetized, it returned to its magneticvirgin state 磁性初始状态 allowing for a fresh start.
当磁铁被去磁化时,它返回到其磁性初始状态 magneticvirgin state,以便重新开始。
2.The engineers discussed the benefits of starting from a magneticvirgin state 磁性初始状态 for the new prototype.
工程师们讨论了从新原型的磁性初始状态 magneticvirgin state 开始的好处。
3.In order to achieve optimal performance, the device must be reset to its magneticvirgin state 磁性初始状态 after each use.
为了达到最佳性能,该设备在每次使用后必须重置为其磁性初始状态 magneticvirgin state。
4.Understanding the magneticvirgin state 磁性初始状态 is crucial for developing new magnetic materials.
理解磁性初始状态 magneticvirgin state 对于开发新型磁性材料至关重要。
5.The scientist explained how the material enters a magneticvirgin state 磁性初始状态 when it is first formed.
科学家解释了材料在首次形成时如何进入磁性初始状态 magneticvirgin state。
作文
In the realm of physics and materials science, the term magnetic virgin state refers to a condition where a magnetic material has not been previously magnetized. This state is crucial for understanding how materials respond to magnetic fields and how they can be manipulated for various applications. When a material is in its magnetic virgin state (磁性处女状态), it exhibits a unique set of properties that can be exploited in technology, particularly in the development of magnetic storage devices and electronic components.Understanding the magnetic virgin state (磁性处女状态) is essential for engineers and scientists working with magnetic materials. In this state, the material's magnetic domains are randomly oriented, which means that the net magnetization is zero. This randomness allows researchers to study the inherent properties of the material without the influence of external magnetic fields. For instance, when a magnetic field is applied to a material in its magnetic virgin state (磁性处女状态), the magnetic domains begin to align, resulting in magnetization. This process is fundamental in designing hard drives, where data is stored by changing the magnetic orientation of tiny regions on the disk surface.Moreover, the magnetic virgin state (磁性处女状态) plays a significant role in the performance of magnetic sensors. These sensors rely on the precise manipulation of magnetic fields to detect changes in their environment. By starting from a magnetic virgin state (磁性处女状态), engineers can ensure that the sensors have a predictable response to magnetic stimuli, leading to more accurate measurements and improved functionality.The concept of the magnetic virgin state (磁性处女状态) also extends beyond traditional magnetic materials. In the field of nanotechnology, researchers are exploring how nanoscale magnetic materials behave when they are in their magnetic virgin state (磁性处女状态). Nanoscale materials often exhibit different magnetic properties compared to their bulk counterparts due to the high surface-to-volume ratio and quantum effects. Understanding these differences is vital for developing new technologies, such as spintronic devices, which utilize the intrinsic spin of electrons in addition to their charge.In conclusion, the magnetic virgin state (磁性处女状态) is a fundamental concept in the study of magnetism and materials science. It serves as a baseline for understanding how magnetic materials can be manipulated and utilized in various technologies. From data storage to sensing applications, the importance of this state cannot be overstated. As research continues to advance in this field, the implications of the magnetic virgin state (磁性处女状态) will undoubtedly lead to innovative solutions and breakthroughs in technology that harness the power of magnetism.
在物理学和材料科学领域,术语magnetic virgin state指的是一种磁性材料尚未被磁化的状态。这种状态对于理解材料如何响应磁场以及如何为各种应用进行操作至关重要。当材料处于其magnetic virgin state(磁性处女状态)时,它表现出一组独特的特性,可以在技术中加以利用,特别是在磁存储设备和电子元件的开发中。理解magnetic virgin state(磁性处女状态)对从事磁性材料工作的工程师和科学家至关重要。在这种状态下,材料的磁畴随机取向,这意味着净磁化为零。这种随机性允许研究人员在没有外部磁场影响的情况下研究材料的固有特性。例如,当施加磁场于处于magnetic virgin state(磁性处女状态)的材料时,磁畴开始排列,从而导致磁化。这个过程在设计硬盘时是基础,因为数据是通过改变磁盘表面上微小区域的磁性方向来存储的。此外,magnetic virgin state(磁性处女状态)在磁传感器的性能中也起着重要作用。这些传感器依赖于对磁场的精确操控,以检测其环境中的变化。通过从magnetic virgin state(磁性处女状态)开始,工程师可以确保传感器对磁刺激具有可预测的响应,从而导致更准确的测量和改进的功能。magnetic virgin state(磁性处女状态)的概念还超越了传统的磁性材料。在纳米技术领域,研究人员正在探索纳米级磁性材料在其magnetic virgin state(磁性处女状态)下的行为。纳米级材料由于高表面积与体积比和量子效应,通常表现出与其大块对应物不同的磁性特性。理解这些差异对于开发新技术至关重要,例如自旋电子设备,这些设备利用电子的内在自旋以及它们的电荷。总之,magnetic virgin state(磁性处女状态)是磁性和材料科学研究中的一个基本概念。它作为理解如何操纵和利用磁性材料在各种技术中的基准。从数据存储到传感应用,这种状态的重要性不容小觑。随着该领域研究的不断进展,magnetic virgin state(磁性处女状态)的含义无疑将导致创新解决方案和突破,利用磁性的力量。
