guided propagation

简明释义

导向传播

英英释义

例句

1.The research team focused on guided propagation to enhance the efficiency of signal transmission in optical fibers.

研究团队专注于引导传播以提高光纤中信号传输的效率。

2.By using guided propagation, we can control the direction of wavefronts in a more precise manner.

通过使用引导传播，我们可以更精确地控制波前的方向。

3.The application of guided propagation in medical imaging has improved the clarity of the images produced.

在医学成像中应用引导传播提高了所产生图像的清晰度。

4.In this experiment, guided propagation was used to direct sound waves through a specific medium.

在这个实验中，引导传播被用来通过特定介质引导声波。

5.The concept of guided propagation is crucial in developing advanced communication systems.

在开发先进通信系统中，引导传播的概念至关重要。

作文

In the realm of scientific research and technology, the concept of guided propagation plays a crucial role in various fields. Guided propagation refers to the process by which waves or signals are directed along a specific path, often utilizing certain structures or mediums that enhance their transmission while minimizing loss or distortion. This principle is widely applied in telecommunications, optics, and even in biological systems, where the efficient transfer of information or energy is paramount.One of the most prominent examples of guided propagation can be found in fiber optic technology. In this application, light signals are transmitted through thin strands of glass or plastic fibers. The design of these fibers allows for the guided propagation of light, ensuring that it travels long distances with minimal attenuation. This has revolutionized the way we communicate, enabling high-speed internet and clear voice transmissions across vast networks. The ability to direct light precisely through these fibers exemplifies the effectiveness of guided propagation in modern technology.Similarly, in the field of acoustics, guided propagation is utilized to enhance sound transmission in various environments. For instance, concert halls and theaters are designed with specific shapes and materials that facilitate the guided propagation of sound waves. By carefully considering the architecture and acoustical properties, sound engineers can create spaces where music and speech can be heard clearly from every seat. This careful orchestration of sound is essential for delivering an optimal auditory experience.Moreover, guided propagation is not limited to artificial constructs; it also occurs naturally in biological systems. For example, certain species of plants have evolved mechanisms that allow for the guided propagation of their seeds. These plants produce seeds that can be carried by wind or water to specific locations, ensuring that they grow in suitable environments. This natural form of guided propagation highlights the importance of directionality in the survival and reproduction of living organisms.The implications of guided propagation extend beyond physical sciences; they also influence how we understand complex systems. In areas such as information theory, the concept of guided propagation can help explain how information flows through networks. Understanding the pathways through which data is transmitted allows researchers and engineers to optimize communication systems, making them more efficient and reliable.In conclusion, guided propagation is a multifaceted concept that is integral to advancements in technology, biology, and information systems. Whether it is through the transmission of light in fiber optics, the design of acoustically optimized spaces, or the natural dispersal of seeds, the principles underlying guided propagation demonstrate the significance of directed movement in various contexts. As we continue to explore and innovate, the understanding of guided propagation will undoubtedly lead to further breakthroughs that enhance our capabilities and improve our quality of life.

在科学研究和技术领域，引导传播的概念在各个领域中发挥着至关重要的作用。引导传播指的是波或信号沿特定路径传播的过程，通常利用某些结构或介质来增强其传输，同时最小化损失或失真。这个原理广泛应用于电信、光学，甚至生物系统中，其中信息或能量的有效传递至关重要。一个最显著的引导传播例子可以在光纤技术中找到。在这个应用中，光信号通过细长的玻璃或塑料光纤传输。这些光纤的设计允许光的引导传播，确保它在长距离内以最小的衰减传播。这彻底改变了我们沟通的方式，使高速互联网和清晰的语音传输能够跨越广阔的网络。通过这些光纤精确引导光的能力，展示了引导传播在现代技术中的有效性。同样，在声学领域，引导传播被用于增强各种环境中的声音传输。例如，音乐厅和剧院的设计采用了特定的形状和材料，以促进声音波的引导传播。通过仔细考虑建筑和声学特性，声音工程师可以创造出每个座位都能清楚听到音乐和演讲的空间。这种对声音的精心编排对于提供最佳的听觉体验至关重要。此外，引导传播不仅限于人工结构；它也自然发生在生物系统中。例如，某些植物物种已经进化出机制，允许其种子进行引导传播。这些植物产生的种子可以被风或水携带到特定位置，确保它们在适合的环境中生长。这种自然形式的引导传播突显了方向性在生物体生存和繁殖中的重要性。引导传播的影响超越了物理科学；它们还影响我们理解复杂系统的方式。在信息理论等领域，引导传播的概念可以帮助解释信息如何在网络中流动。理解数据传输的路径使研究人员和工程师能够优化通信系统，使其更加高效和可靠。总之，引导传播是一个多方面的概念，对于技术、生物学和信息系统的进步至关重要。无论是通过光纤中的光传输、声学优化空间的设计，还是种子的自然传播，支撑引导传播的原则展示了在各种背景下有向运动的重要性。随着我们继续探索和创新，对引导传播的理解无疑将导致进一步的突破，增强我们的能力，提高我们的生活质量。