receiver amplifier cryoelectronic system

简明释义

接收 放大低温电子学系统

英英释义

例句

1.The receiver amplifier cryoelectronic system operates at very low temperatures to minimize noise interference.

接收放大器低温电子系统在非常低的温度下工作，以最小化噪声干扰。

2.The new satellite communication system utilizes a highly sensitive receiver amplifier cryoelectronic system to enhance signal detection.

新的卫星通信系统利用高度灵敏的接收放大器低温电子系统来增强信号检测。

3.The performance of the receiver amplifier cryoelectronic system directly affects the quality of the data collected in experiments.

在实验中，接收放大器低温电子系统的性能直接影响收集数据的质量。

4.Engineers are developing a new prototype of the receiver amplifier cryoelectronic system for deep space missions.

工程师们正在开发一种新的接收放大器低温电子系统原型，用于深空任务。

5.In radio astronomy, the receiver amplifier cryoelectronic system is crucial for capturing faint signals from distant galaxies.

在射电天文学中，接收放大器低温电子系统对捕捉来自遥远星系的微弱信号至关重要。

作文

In the realm of modern technology, the term receiver amplifier cryoelectronic system plays a pivotal role in various applications, particularly in the fields of telecommunications and space exploration. This advanced system combines several components to enhance signal processing capabilities at extremely low temperatures, which is essential for achieving high sensitivity and accuracy in signal detection. Understanding this concept requires a closer examination of its individual components and their functions.Firstly, let us break down the term. The 'receiver' is a crucial part of any communication system, responsible for capturing signals transmitted over distances. In the context of a receiver amplifier cryoelectronic system, the receiver is designed to detect weak signals that would otherwise be lost in noise. This is especially important in applications such as radio astronomy, where faint signals from distant celestial objects need to be amplified for analysis.Next, we have the 'amplifier'. An amplifier's primary function is to increase the power of a signal without altering its content. In a receiver amplifier cryoelectronic system, the amplifier is specifically engineered to operate effectively at cryogenic temperatures. Cryogenics refers to the study of materials and systems at very low temperatures, typically below -150 degrees Celsius. At these temperatures, the thermal noise is significantly reduced, allowing for clearer and more precise signal amplification.The term 'cryoelectronic' refers to electronic devices that are designed to function at cryogenic temperatures. These devices take advantage of the unique properties of materials when cooled, such as increased conductivity and decreased resistance. A receiver amplifier cryoelectronic system leverages these properties to improve performance and efficiency, enabling advancements in technologies like quantum computing and sensitive measurement instruments.The integration of these components into a single system allows for enhanced performance in various applications. For instance, in radio telescopes, a receiver amplifier cryoelectronic system can detect and amplify signals from astronomical sources that are billions of light-years away. This capability is crucial for astronomers seeking to understand the universe's origins and evolution.Moreover, the development of receiver amplifier cryoelectronic systems has significant implications for communication technologies. As we strive for faster and more reliable communication methods, these systems can help improve data transmission rates and overall system performance. They can also play a vital role in satellite communications, where signal integrity is paramount due to the vast distances involved.In conclusion, the receiver amplifier cryoelectronic system is an essential component in modern technological applications, particularly in fields that require high sensitivity and precision. By combining the roles of receivers, amplifiers, and cryoelectronic technology, this system enhances our ability to detect and process signals in various environments. As technology continues to evolve, understanding and mastering the principles behind systems like the receiver amplifier cryoelectronic system will be crucial for future innovations and discoveries in science and engineering.

在现代科技领域，术语接收放大器低温电子系统在各种应用中发挥着关键作用，尤其是在电信和太空探索领域。这个先进的系统结合了多个组件，以增强在极低温度下的信号处理能力，这对于实现高灵敏度和精确的信号检测至关重要。要理解这个概念，需要更仔细地审视其各个组成部分及其功能。首先，让我们分解一下这个术语。“接收器”是任何通信系统中的关键部分，负责捕获远距离传输的信号。在接收放大器低温电子系统的背景下，接收器旨在检测微弱信号，这些信号在噪声中可能会丢失。这在诸如射电天文学等应用中尤为重要，因为需要放大来自遥远天体的微弱信号以进行分析。接下来是“放大器”。放大器的主要功能是增加信号的功率而不改变其内容。在接收放大器低温电子系统中，放大器专门设计用于在低温下有效工作。低温学是研究材料和系统在非常低温下（通常低于零下150摄氏度）行为的学科。在这些温度下，热噪声显著降低，从而允许更清晰和更精确的信号放大。“低温电子”一词指的是设计用于在低温下运行的电子设备。这些设备利用材料在冷却时的独特属性，例如导电性增加和电阻降低。接收放大器低温电子系统利用这些特性来提高性能和效率，使量子计算和敏感测量仪器等技术取得进展。将这些组件集成到一个系统中，可以在各种应用中实现更好的性能。例如，在射电望远镜中，接收放大器低温电子系统可以检测和放大来自数十亿光年外的天文源的信号。这种能力对于寻求理解宇宙起源和演化的天文学家至关重要。此外，接收放大器低温电子系统的发展对通信技术具有重要意义。随着我们努力实现更快、更可靠的通信方式，这些系统可以帮助提高数据传输速率和整体系统性能。它们在卫星通信中也能发挥重要作用，因为在巨大的距离下，信号完整性至关重要。总之，接收放大器低温电子系统是现代技术应用中的一个重要组成部分，特别是在需要高灵敏度和精确度的领域。通过结合接收器、放大器和低温电子技术的作用，这个系统增强了我们在各种环境中检测和处理信号的能力。随着技术的不断发展，理解和掌握像接收放大器低温电子系统这样的系统背后的原理将对未来的创新和科学工程发现至关重要。