aperture coupling

简明释义

孔径耦合

英英释义

例句

1.The design of antennas frequently employs aperture coupling 孔径耦合 for its efficiency in signal transmission.

天线的设计经常采用孔径耦合 孔径耦合，因为它在信号传输中的效率。

2.In microwave engineering, aperture coupling 孔径耦合 is often used to connect radiating elements to a feed network.

在微波工程中，孔径耦合 孔径耦合 通常用于将辐射元件连接到馈电网络。

3.When analyzing the performance of a radar system, aperture coupling 孔径耦合 can significantly affect the overall gain.

在分析雷达系统的性能时，孔径耦合 孔径耦合 可以显著影响整体增益。

4.In designing a waveguide, aperture coupling 孔径耦合 allows for better integration with other components.

在设计波导时，孔径耦合 孔径耦合 允许与其他组件更好地集成。

5.Engineers often choose aperture coupling 孔径耦合 to minimize losses in high-frequency applications.

工程师们经常选择孔径耦合 孔径耦合以最小化高频应用中的损耗。

作文

In the field of engineering and physics, the concept of aperture coupling plays a significant role in understanding how waves interact with different mediums. aperture coupling refers to the method by which energy is transferred from one medium to another through an opening or aperture. This phenomenon is particularly important in applications such as antenna design, optical systems, and various communication technologies. By examining the principles behind aperture coupling, we can gain insights into how to optimize these systems for better performance.To begin with, let’s consider the basic principles of aperture coupling. When a wave encounters an aperture, part of its energy can pass through while the rest may be reflected or absorbed. The efficiency of this energy transfer depends on several factors, including the size of the aperture, the wavelength of the incoming wave, and the properties of the surrounding medium. For instance, in antenna technology, the design of the aperture is crucial for determining the radiation pattern and gain of the antenna. A well-designed aperture can significantly enhance the signal strength and clarity, making it essential for effective communication.In optical systems, aperture coupling is equally critical. When light passes through an aperture, it can lead to diffraction, which affects the quality of the image produced by lenses. Understanding how to manipulate aperture coupling allows engineers to create better optical devices, such as cameras and microscopes, where clarity and precision are paramount. By adjusting the size and shape of the aperture, one can control the amount of light that enters the system, thus improving the overall image quality.Moreover, aperture coupling is also relevant in the context of wireless communication. Modern communication systems often rely on antennas that utilize aperture coupling to transmit and receive signals effectively. The design of these antennas must take into account the frequency of operation and the intended range of communication. By optimizing the aperture size and configuration, engineers can enhance the performance of these systems, leading to faster data transmission and improved connectivity.In summary, aperture coupling is a fundamental concept that underpins many technological advancements in engineering and physics. Its significance is evident in various applications, from antenna design to optical systems and wireless communication. By understanding the principles of aperture coupling, engineers and scientists can develop more efficient and effective systems that meet the demands of modern technology. As we continue to explore the intricacies of wave interactions, the importance of aperture coupling will only grow, driving innovation and improvement across multiple fields.

在工程和物理学领域，aperture coupling的概念在理解波与不同介质相互作用方面发挥着重要作用。aperture coupling指的是通过开口或孔径将能量从一种介质转移到另一种介质的方法。这种现象在天线设计、光学系统和各种通信技术等应用中尤为重要。通过研究aperture coupling背后的原理，我们可以深入了解如何优化这些系统以获得更好的性能。首先，让我们考虑一下aperture coupling的基本原理。当波遇到一个孔径时，其部分能量可以通过，而其余部分可能会被反射或吸收。这种能量传输的效率取决于几个因素，包括孔径的大小、入射波的波长以及周围介质的性质。例如，在天线技术中，孔径的设计对于确定天线的辐射模式和增益至关重要。一个设计良好的孔径可以显著增强信号强度和清晰度，使其对有效通信至关重要。在光学系统中，aperture coupling同样关键。当光线通过一个孔径时，可能会导致衍射，这会影响镜头产生的图像质量。了解如何操控aperture coupling使工程师能够创造出更好的光学设备，如相机和显微镜，在这些设备中，清晰度和精确度是至关重要的。通过调整孔径的大小和形状，可以控制进入系统的光量，从而改善整体图像质量。此外，aperture coupling在无线通信的背景下也相关。现代通信系统通常依赖于利用aperture coupling有效传输和接收信号的天线。这些天线的设计必须考虑操作频率和预期的通信范围。通过优化孔径的大小和配置，工程师可以提升这些系统的性能，从而实现更快的数据传输和更好的连接性。总之，aperture coupling是支撑工程和物理学中许多技术进步的基本概念。它的重要性在各种应用中显而易见，从天线设计到光学系统和无线通信。通过理解aperture coupling的原理，工程师和科学家可以开发出更高效、更有效的系统，以满足现代技术的需求。随着我们继续探索波相互作用的复杂性，aperture coupling的重要性只会增加，推动多个领域的创新和改进。