beam matching

简明释义

束隶配

英英释义

例句

1.In fiber optic applications, beam matching 光束匹配 helps minimize signal loss during transmission.

在光纤应用中，光束匹配 有助于减少传输过程中的信号损失。

2.The success of the photonic device relied heavily on precise beam matching 光束匹配 between the input and output beams.

光子设备的成功在很大程度上依赖于输入和输出光束之间的精确 光束匹配 。

3.In laser communication systems, beam matching 光束匹配 is crucial to ensure that the transmitted and received signals are aligned.

在激光通信系统中，光束匹配 是确保发送和接收信号对齐的关键。

4.Engineers often use beam matching 光束匹配 techniques to optimize the performance of optical systems.

工程师通常使用 光束匹配 技术来优化光学系统的性能。

5.During the experiment, we focused on beam matching 光束匹配 to improve the efficiency of the laser setup.

在实验过程中，我们专注于 光束匹配 以提高激光设备的效率。

作文

In the world of optics and telecommunications, the concept of beam matching plays a crucial role in ensuring efficient signal transmission and reception. Beam matching refers to the process of aligning the characteristics of two or more light beams so that they can effectively interact with each other. This is particularly important in applications such as laser communications, where the quality and strength of the transmitted signal can significantly impact performance.When we discuss beam matching, we often refer to parameters such as beam size, divergence, and phase. For instance, in laser systems, if the output beam of one laser does not match the input beam of another system, there can be significant losses in energy and information. Therefore, achieving optimal beam matching is essential for maximizing the efficiency of these systems.One common application of beam matching is in fiber optic communications. In this context, the light emitted from a laser must be carefully matched to the core diameter of the optical fiber to minimize losses. If the beam is too wide or too divergent, it may not couple efficiently into the fiber, leading to reduced signal strength and increased attenuation. Engineers use various techniques to ensure beam matching, such as using lenses or mirrors to focus and align the beams properly.Moreover, beam matching is also vital in areas like medical imaging and treatment. For example, in laser surgery, precise beam matching ensures that the energy delivered by the laser is concentrated on the target tissue without affecting surrounding areas. This precision not only improves the effectiveness of the procedure but also minimizes damage to healthy tissues, resulting in better patient outcomes.The importance of beam matching extends beyond just lasers and optics. In wireless communications, the concept can also be applied when discussing antenna systems. Matching the beam patterns of transmitting and receiving antennas can enhance signal strength and quality. When the beams are well-matched, the overall system can operate at higher efficiencies, leading to improved communication capabilities.In conclusion, beam matching is a fundamental concept that underpins many technological advancements in optics and telecommunications. It involves aligning the properties of light beams for optimal interaction, which is crucial for applications ranging from laser communications to medical procedures. As technology continues to evolve, the principles of beam matching will remain integral to the development of more efficient and effective systems. Understanding and mastering this concept will undoubtedly lead to further innovations in various fields, enhancing both our communication technologies and medical practices.

在光学和电信的世界中，光束匹配的概念在确保信号传输和接收的效率方面发挥着至关重要的作用。光束匹配是指将两个或多个光束的特性对齐，以便它们能够有效地相互作用的过程。这在激光通信等应用中尤为重要，因为所传输信号的质量和强度会显著影响性能。当我们讨论光束匹配时，我们通常会提到诸如光束大小、发散度和相位等参数。例如，在激光系统中，如果一个激光的输出光束与另一个系统的输入光束不匹配，就可能会导致能量和信息的显著损失。因此，实现最佳的光束匹配对于最大化这些系统的效率至关重要。光束匹配的一个常见应用是在光纤通信中。在这种情况下，从激光发出的光必须与光纤的核心直径仔细匹配，以最小化损失。如果光束太宽或太发散，可能无法有效耦合到光纤中，导致信号强度降低和衰减增加。工程师使用各种技术来确保光束匹配，例如使用透镜或镜子来正确聚焦和对齐光束。此外，光束匹配在医学成像和治疗等领域也至关重要。例如，在激光手术中，精确的光束匹配确保激光传递的能量集中在目标组织上，而不影响周围区域。这种精确度不仅提高了手术的有效性，还最小化了对健康组织的损害，从而改善了患者的结果。光束匹配的重要性不仅限于激光和光学。在无线通信中，当讨论天线系统时，这一概念也可以应用。匹配发射和接收天线的波束模式可以增强信号强度和质量。当波束良好匹配时，整体系统可以在更高的效率下运行，从而改善通信能力。总之，光束匹配是支撑光学和电信领域许多技术进步的基本概念。它涉及光束属性的对齐，以实现最佳相互作用，这对于从激光通信到医疗程序的各种应用至关重要。随着技术的不断发展，光束匹配的原理将继续成为开发更高效和有效系统的核心。理解和掌握这一概念无疑将推动各个领域的进一步创新，提高我们的通信技术和医疗实践。