excitation anode

简明释义

激励阳极

英英释义

例句

1.The researchers noted that the stability of the excitation anode was essential for accurate measurements.

研究人员指出，激发阳极的稳定性对准确测量至关重要。

2.In the experiment, the excitation anode played a crucial role in generating the necessary plasma.

在实验中，激发阳极在产生所需等离子体方面发挥了关键作用。

3.The scientist adjusted the voltage across the excitation anode to optimize the emission spectrum.

科学家调整了激发阳极的电压，以优化发射光谱。

4.By increasing the current through the excitation anode, they were able to enhance the output signal.

通过增加通过激发阳极的电流，他们能够增强输出信号。

5.The design of the excitation anode must minimize electron loss to improve efficiency.

为了提高效率，激发阳极的设计必须尽量减少电子损失。

作文

In the realm of electrical engineering and physics, the term excitation anode refers to a specialized component that plays a crucial role in the operation of various electronic devices. An anode is generally defined as the electrode through which current flows into a polarized electrical device. In many applications, especially in cathode ray tubes and certain types of gas discharge lamps, the excitation anode serves to initiate and maintain the discharge process necessary for the device's operation.The function of the excitation anode is particularly significant in systems where electron emission is required. For instance, in a cathode ray tube (CRT), which was widely used in older television sets and computer monitors, the excitation anode helps accelerate electrons emitted from the cathode towards the screen. This acceleration is vital for producing images, as it determines the energy and speed of the electrons, ultimately affecting the resolution and clarity of the displayed image.Moreover, the excitation anode is also instrumental in gas discharge lamps, such as neon lights. In these devices, the anode facilitates the ionization of gas within the tube. When voltage is applied, the excitation anode generates an electric field that excites the gas atoms, causing them to emit light. This phenomenon is a direct result of the excitation process initiated by the anode, showcasing its importance in lighting technology.Understanding the role of the excitation anode also involves recognizing its relationship with other components in a circuit. The anode works in conjunction with the cathode, which is the negatively charged electrode. The interaction between these two electrodes is fundamental to the flow of current and the overall functionality of electronic devices. The design and material of the anode can significantly influence the efficiency and performance of the system, making it essential for engineers to consider these factors during the design phase.In modern applications, the principles governing the excitation anode continue to be relevant. As technology advances, new materials and designs are being explored to enhance the performance of electronic devices. For example, in the development of solid-state lighting, researchers are investigating how to optimize the anode's properties to improve energy efficiency and light output.In conclusion, the excitation anode is a vital component in various electronic systems, playing a key role in processes that require electron emission and gas ionization. Its functions in devices like cathode ray tubes and gas discharge lamps highlight its importance in both historical and contemporary technologies. As we continue to innovate and develop new electronic devices, understanding the mechanics and applications of the excitation anode will remain crucial for engineers and scientists alike. This knowledge not only aids in the design of more efficient systems but also contributes to the ongoing evolution of technology in our daily lives.

在电气工程和物理学领域，短语excitation anode指的是一个特殊的组件，它在各种电子设备的操作中发挥着至关重要的作用。阳极通常被定义为电流流入极化电气设备的电极。在许多应用中，尤其是在阴极射线管和某些类型的气体放电灯中，excitation anode有助于启动和维持设备操作所需的放电过程。excitation anode的功能在需要电子发射的系统中尤为重要。例如，在阴极射线管（CRT）中，这种设备曾广泛用于旧式电视机和计算机显示器，excitation anode帮助加速从阴极发射的电子朝向屏幕。这种加速对于生成图像至关重要，因为它决定了电子的能量和速度，最终影响显示图像的分辨率和清晰度。此外，excitation anode在气体放电灯中也起着重要作用，例如霓虹灯。在这些设备中，阳极促进了管内气体的电离。当施加电压时，excitation anode产生的电场激发气体原子，使其发光。这一现象是阳极引发的激发过程的直接结果，展示了它在照明技术中的重要性。理解excitation anode的作用还涉及到认识它与电路中其他组件之间的关系。阳极与阴极协同工作，阴极是带负电的电极。这两个电极之间的相互作用是电流流动和电子设备整体功能的基础。阳极的设计和材料对系统的效率和性能有显著影响，因此工程师在设计阶段必须考虑这些因素。在现代应用中，支配excitation anode的原理仍然相关。随着技术的进步，人们正在探索新材料和设计以提高电子设备的性能。例如，在固态照明的发展中，研究人员正在调查如何优化阳极的特性，以提高能效和光输出。总之，excitation anode是各种电子系统中的重要组件，在需要电子发射和气体电离的过程中发挥关键作用。它在阴极射线管和气体放电灯中的功能突显了它在历史和当代技术中的重要性。随着我们继续创新和开发新的电子设备，理解excitation anode的机械原理和应用将对工程师和科学家而言至关重要。这种知识不仅有助于设计更高效的系统，还有助于推动我们日常生活中技术的不断演变。