pulse peak power

简明释义

脉冲峰功率

英英释义

例句

1.Engineers must calculate the pulse peak power 脉冲峰值功率 to ensure the safety of high-energy systems.

工程师必须计算脉冲峰值功率 脉冲峰值功率以确保高能系统的安全性。

2.For medical applications, a higher pulse peak power 脉冲峰值功率 can enhance the effectiveness of laser treatments.

在医疗应用中，更高的脉冲峰值功率 脉冲峰值功率可以增强激光治疗的效果。

3.In telecommunications, understanding the pulse peak power 脉冲峰值功率 is crucial for optimizing signal transmission.

在电信领域，理解脉冲峰值功率 脉冲峰值功率对优化信号传输至关重要。

4.The research focused on increasing the pulse peak power 脉冲峰值功率 of the fiber laser to improve its efficiency.

研究集中在提高光纤激光器的脉冲峰值功率 脉冲峰值功率以提高其效率。

5.The laser system operates at a pulse peak power 脉冲峰值功率 of 10 kilowatts, allowing for precise cutting of materials.

该激光系统的脉冲峰值功率 脉冲峰值功率为10千瓦，能够精确切割材料。

作文

The concept of pulse peak power refers to the maximum power level achieved during a short burst or pulse of energy, commonly used in various fields such as telecommunications, laser technology, and radar systems. Understanding this term is crucial for engineers and scientists who work with high-energy systems. In telecommunications, for instance, pulse peak power plays a significant role in determining the efficiency and reliability of signal transmission. When a signal is transmitted in pulses, the peak power must be carefully managed to ensure that it remains within acceptable limits, avoiding distortion and interference. In laser technology, pulse peak power is particularly important. Lasers can emit energy in extremely short pulses, sometimes lasting only a few femtoseconds. The peak power of these pulses can reach millions of watts, which is essential for applications like laser cutting and medical procedures. High pulse peak power enables the laser to achieve the necessary intensity to cut through materials or perform precise surgical operations. Moreover, in radar systems, pulse peak power is a critical parameter that affects the radar's detection range and resolution. A radar system emits short pulses of radio waves and measures the reflected signals from objects. The peak power of these pulses determines how far the radar can detect objects and how accurately it can distinguish between them. Higher pulse peak power translates into better performance, enabling the radar to detect smaller or more distant objects. However, managing pulse peak power comes with its challenges. Excessive peak power can lead to system damage or failure. For example, in laser systems, if the peak power exceeds the material's threshold, it can cause unwanted effects such as thermal damage or material ablation. Therefore, engineers must design systems that can handle the required pulse peak power while ensuring safety and reliability. Additionally, advancements in technology have led to the development of new materials and techniques that allow for higher pulse peak power levels without compromising safety. Research continues to explore ways to optimize pulse generation and management, leading to more efficient and powerful systems. In conclusion, understanding pulse peak power is essential for professionals working in various high-energy fields. It is a key factor that influences the performance and reliability of systems in telecommunications, laser technology, and radar applications. As technology advances, the ability to manipulate and control pulse peak power will continue to play a vital role in the development of innovative solutions across different industries.

“脉冲峰值功率”这一概念指的是在短暂的能量脉冲中达到的最大功率水平，这一术语在电信、激光技术和雷达系统等多个领域中都非常重要。理解这个术语对于从事高能系统工作的工程师和科学家来说至关重要。例如，在电信领域，“脉冲峰值功率”在确定信号传输的效率和可靠性方面扮演着重要角色。当信号以脉冲形式传输时，必须仔细管理峰值功率，以确保其保持在可接受的范围内，避免失真和干扰。在激光技术中，“脉冲峰值功率”尤其重要。激光可以在极短的脉冲中发出能量，有时仅持续几飞秒。这些脉冲的峰值功率可以达到数百万瓦特，这对于激光切割和医疗手术等应用至关重要。高“脉冲峰值功率”使激光能够达到切割材料或进行精确外科操作所需的强度。此外，在雷达系统中，“脉冲峰值功率”是影响雷达检测范围和分辨率的关键参数。雷达系统发射短脉冲的无线电波，并测量来自物体的反射信号。这些脉冲的峰值功率决定了雷达可以检测到物体的距离以及它可以多准确地区分这些物体。更高的“脉冲峰值功率”意味着更好的性能，使雷达能够检测到更小或更远的物体。然而，管理“脉冲峰值功率”也带来了挑战。过高的峰值功率可能导致系统损坏或故障。例如，在激光系统中，如果峰值功率超过材料的阈值，可能会导致热损伤或材料剥离等不良效果。因此，工程师必须设计能够处理所需“脉冲峰值功率”的系统，同时确保安全性和可靠性。此外，技术的进步促使新材料和技术的发展，使得在不妨碍安全性的情况下实现更高的“脉冲峰值功率”。研究继续探索优化脉冲生成和管理的方法，从而导致不同系统的更高效和更强大。总之，理解“脉冲峰值功率”对在各种高能领域工作的专业人士至关重要。它是影响电信、激光技术和雷达应用中系统性能和可靠性的关键因素。随着技术的进步，操控和控制“脉冲峰值功率”的能力将继续在各个行业的创新解决方案发展中发挥重要作用。