breakdown plasma

简明释义

气体放电等离子体

英英释义

例句

1.The application of breakdown plasma 分解等离子体 in sterilization has shown promising results.

在灭菌中的breakdown plasma 分解等离子体应用显示出良好的效果。

2.Using breakdown plasma 分解等离子体 technology can enhance the efficiency of chemical reactions.

使用breakdown plasma 分解等离子体技术可以提高化学反应的效率。

3.Scientists are studying the effects of breakdown plasma 分解等离子体 on various materials.

科学家们正在研究breakdown plasma 分解等离子体对各种材料的影响。

4.The researchers discovered that the breakdown plasma 分解等离子体 can efficiently decompose organic pollutants.

研究人员发现，breakdown plasma 分解等离子体可以有效分解有机污染物。

5.In the experiment, the breakdown plasma 分解等离子体 was used to treat wastewater.

在实验中，使用了breakdown plasma 分解等离子体来处理废水。

作文

In the field of plasma physics, the term breakdown plasma refers to a state of ionized gas that occurs when a sufficient electric field is applied to a neutral gas, causing it to become conductive. This phenomenon is crucial in various applications, including fluorescent lights, plasma TVs, and even in the processes of fusion energy generation. Understanding breakdown plasma is essential for both theoretical research and practical applications in modern technology.When an electric field is applied to a gas, the gas molecules can become ionized, leading to the formation of free electrons and ions. As the electric field strength increases, more and more gas molecules are ionized, resulting in a cascade effect that leads to the creation of a significant amount of charged particles. This process is known as the breakdown of the gas into plasma, hence the term breakdown plasma.The characteristics of breakdown plasma can vary depending on several factors, including the type of gas used, the pressure of the gas, and the frequency of the applied electric field. For instance, in low-pressure environments, breakdown plasma can be achieved at lower electric field strengths compared to high-pressure environments. This knowledge is particularly important in designing devices that utilize plasma, such as gas discharge lamps and plasma reactors.One of the most fascinating aspects of breakdown plasma is its ability to conduct electricity. Once the gas has transitioned into a plasma state, it becomes highly conductive, allowing electric currents to flow through it with minimal resistance. This property is exploited in numerous technologies. For example, in neon signs, the breakdown plasma created by applying a high voltage across the gas inside the tube produces light, giving the sign its characteristic glow.Moreover, breakdown plasma plays a significant role in the development of fusion energy. In fusion reactors, achieving and maintaining a stable plasma state is paramount for initiating the fusion reaction. The understanding of how to control the breakdown plasma is crucial for scientists working on nuclear fusion as a potential clean energy source. By manipulating the conditions under which breakdown plasma occurs, researchers can optimize the performance of fusion reactors and improve their efficiency.In conclusion, the study of breakdown plasma is vital for advancing our understanding of plasma physics and its applications in technology. From lighting solutions to energy generation, the implications of breakdown plasma are vast and varied. As we continue to explore and harness the power of plasma, the knowledge gained from studying breakdown plasma will undoubtedly pave the way for future innovations in science and technology.

在等离子体物理领域，术语breakdown plasma指的是在施加足够电场时，中性气体发生电离的状态，从而使其变得导电。这一现象在多种应用中至关重要，包括荧光灯、等离子电视，甚至在聚变能源生成过程中。理解breakdown plasma对于现代技术中的理论研究和实际应用都是必不可少的。当电场施加到气体上时，气体分子可能会被电离，导致自由电子和离子的形成。随着电场强度的增加，越来越多的气体分子被电离，导致一种级联效应，最终产生大量带电粒子。这个过程被称为气体的breakdown成等离子体，因此有了术语breakdown plasma。breakdown plasma的特性可能因多种因素而异，包括所使用的气体类型、气体的压力以及施加电场的频率。例如，在低压环境中，与高压环境相比，可以在较低的电场强度下实现breakdown plasma。这一知识对于设计利用等离子体的设备尤为重要，如气体放电灯和等离子反应器。breakdown plasma最引人入胜的方面之一是其导电能力。一旦气体转变为等离子体状态，它就变得高度导电，允许电流以最小的阻力流经它。这一特性被广泛应用于许多技术中。例如，在霓虹灯中，通过在管内施加高电压产生的breakdown plasma发出光，使标志具有其特征的光辉。此外，breakdown plasma在聚变能源的发展中也发挥了重要作用。在聚变反应堆中，实现和维持稳定的等离子体状态对于启动聚变反应至关重要。控制breakdown plasma的理解对于致力于核聚变作为潜在清洁能源的科学家而言至关重要。通过操控breakdown plasma发生的条件，研究人员可以优化聚变反应堆的性能，提高其效率。总之，研究breakdown plasma对于推进我们对等离子体物理及其技术应用的理解至关重要。从照明解决方案到能源生成，breakdown plasma的影响广泛而多样。随着我们继续探索和利用等离子体的力量，研究breakdown plasma所获得的知识无疑将为未来的科学和技术创新铺平道路。