guided propagation

简明释义

导行传播

英英释义

例句

1.By using guided propagation, we can ensure that critical messages reach all team members efficiently.

通过使用引导传播，我们可以确保重要信息高效地传达到所有团队成员。

2.The software utilizes guided propagation algorithms to optimize data flow in large-scale systems.

该软件利用引导传播算法来优化大规模系统中的数据流。

3.The marketing team employed guided propagation strategies to amplify their campaign's reach on social media.

市场团队采用引导传播策略来扩大他们在社交媒体上活动的影响力。

4.In agriculture, guided propagation techniques can help distribute nutrients more effectively to plants.

在农业中，引导传播技术可以更有效地将养分分配给植物。

5.The researchers implemented a method for guided propagation to enhance the spread of information within the network.

研究人员实施了一种方法来增强网络中信息传播的引导传播。

作文

In the realm of scientific research and technological development, the concept of guided propagation plays a crucial role. It refers to the deliberate direction and management of waves, signals, or energy as they move through various mediums. This concept is particularly significant in fields such as telecommunications, optics, and even biological sciences. Understanding guided propagation can enhance our ability to design systems that effectively transmit information or energy with minimal loss and distortion.For instance, in telecommunications, guided propagation is essential for the efficient transmission of signals through fiber optic cables. These cables are designed to guide light signals over long distances, ensuring that the data remains intact and clear. The principle behind this involves total internal reflection, which allows light to be contained within the fiber, preventing it from escaping into the surrounding environment. By mastering the principles of guided propagation, engineers can develop better communication networks that support higher bandwidths and faster data transfer rates.Similarly, in the field of optics, guided propagation is utilized in the design of lenses and optical devices. For example, when light passes through a lens, its path can be manipulated to focus or disperse the light as needed. This manipulation relies on understanding how light propagates through different materials and how it can be guided to achieve the desired effect. Innovations in this area can lead to advancements in imaging technologies, such as cameras and microscopes, which are vital in both scientific research and everyday life.Moreover, guided propagation is not limited to man-made systems; it also occurs in nature. For instance, certain species of plants utilize guided propagation mechanisms to distribute their seeds effectively. By employing specific growth patterns and structures, these plants ensure that their seeds travel to optimal locations for germination and growth. This natural form of guided propagation highlights the importance of directionality and control in the spread of life, showcasing how similar principles can be observed across different domains.The implications of guided propagation extend beyond mere transmission; they encompass the efficiency and effectiveness of systems we rely on daily. In medical technology, for instance, understanding how energy propagates through tissues can lead to improved imaging techniques and treatment methods. Techniques such as ultrasound rely on the guided propagation of sound waves to create images of internal body structures, aiding in diagnosis and treatment planning.In conclusion, guided propagation is a multifaceted concept that is integral to various scientific and technological advancements. From telecommunications to optics and even biological systems, the ability to direct and manage the propagation of energy and signals has profound implications. As we continue to explore and innovate in these fields, a deeper understanding of guided propagation will undoubtedly pave the way for new discoveries and improvements that enhance our quality of life. Embracing this concept not only enriches our knowledge but also empowers us to harness the forces of nature and technology for the betterment of society.

在科学研究和技术发展的领域中，引导传播的概念发挥着至关重要的作用。它指的是波、信号或能量在各种介质中移动时的故意方向和管理。这个概念在电信、光学甚至生物科学等领域尤为重要。理解引导传播可以增强我们设计有效传输信息或能量的系统的能力，减少损失和失真。例如，在电信中，引导传播对信号通过光纤电缆的高效传输至关重要。这些电缆被设计用于在长距离内引导光信号，确保数据保持完整和清晰。其背后的原理涉及全内反射，这使得光能够被限制在光纤内，防止其逃逸到周围环境中。通过掌握引导传播的原理，工程师可以开发出更好的通信网络，支持更高的带宽和更快的数据传输速率。同样，在光学领域，引导传播被应用于透镜和光学设备的设计中。例如，当光通过透镜时，其路径可以被操纵以聚焦或散射光。这种操纵依赖于理解光如何在不同材料中传播以及如何引导光以实现所需效果。该领域的创新可以导致成像技术的进步，例如相机和显微镜，这些在科学研究和日常生活中至关重要。此外，引导传播不仅限于人造系统；它也发生在自然界中。例如，某些植物利用引导传播机制有效地分布种子。通过采用特定的生长模式和结构，这些植物确保它们的种子传播到适合发芽和生长的最佳位置。这种自然形式的引导传播突显了方向性和控制在生命传播中的重要性，展示了不同领域中可以观察到的相似原理。引导传播的影响不仅限于单纯的传输；它还涵盖了我们日常依赖的系统的效率和有效性。在医疗技术中，理解能量如何在组织中传播可以导致成像技术和治疗方法的改进。超声等技术依赖于声波的引导传播来创建内部结构的图像，帮助诊断和治疗计划。总之，引导传播是一个多方面的概念，是各种科学和技术进步的核心。从电信到光学甚至生物系统，引导和管理能量和信号传播的能力具有深远的影响。随着我们在这些领域不断探索和创新，更深入地理解引导传播无疑将为新的发现和改进铺平道路，从而提高我们的生活质量。接受这一概念不仅丰富了我们的知识，还使我们能够利用自然和技术的力量来改善社会。