leaky lightguide

简明释义

漏泄光波导

英英释义

例句

1.Engineers are testing a leaky lightguide design that minimizes light loss in fiber optics.

工程师正在测试一种设计，以最小化光纤中的光损失的漏光导管。

2.The new optical system uses a leaky lightguide to enhance the illumination efficiency.

新的光学系统使用漏光导管来提高照明效率。

3.A leaky lightguide can be beneficial in applications where scattered light is needed.

在需要散射光的应用中，漏光导管是有益的。

4.In this experiment, we will measure the performance of the leaky lightguide under different conditions.

在这个实验中，我们将测量不同条件下漏光导管的性能。

5.The leaky lightguide technology is being adopted in modern display systems.

现代显示系统正在采用漏光导管技术。

作文

In the field of optics and photonics, the term leaky lightguide refers to a type of optical waveguide that allows some light to escape from its boundaries rather than being fully confined within. This phenomenon occurs due to imperfections in the material or design of the waveguide, which can lead to a loss of light intensity as it travels along the guide. Understanding the principles behind leaky lightguide structures is essential for developing more efficient optical systems, particularly in telecommunications and sensor technologies.A leaky lightguide can be compared to a garden hose with small holes along its length. While the hose effectively directs water from one point to another, the leaks cause some of the water to escape, reducing the overall flow. Similarly, a leaky lightguide transmits light but loses some of it in the process. This leakage can be intentional or unintentional, depending on the application. For example, in certain sensor applications, light leakage can be beneficial, as it allows for the detection of surrounding environmental conditions by measuring the intensity of the escaping light.One of the primary advantages of using leaky lightguide designs in optical systems is their potential for miniaturization. Traditional optical systems often require bulky components to manage light propagation, but leaky guides can be integrated into smaller devices without sacrificing performance. This is particularly valuable in the development of compact lasers and sensors, where space is at a premium.However, the challenge with leaky lightguide structures lies in managing the amount of light that escapes. Engineers and scientists must carefully design these guides to balance the desired level of leakage with the need for efficient light transmission. Advanced materials and fabrication techniques are being explored to create leaky lightguide systems that minimize unwanted losses while still achieving the necessary functionality.Another important aspect of leaky lightguide technology is its impact on signal integrity in communication systems. In fiber optic communication, for instance, maintaining the strength of the transmitted signal is crucial for ensuring high data rates and reliable connections. By understanding the behavior of leaky lightguide structures, researchers can develop strategies to mitigate the effects of light loss, thus enhancing the performance of communication networks.In conclusion, the concept of leaky lightguide plays a significant role in modern optics and photonics. While it presents challenges in terms of light loss, it also offers opportunities for innovation in the design of compact and efficient optical systems. As technology continues to evolve, the study of leaky lightguide structures will undoubtedly lead to new advancements in various fields, including telecommunications, sensing, and beyond. By embracing both the advantages and complexities of leaky lightguide technology, researchers can pave the way for future breakthroughs that enhance our understanding and utilization of light.

在光学和光子学领域，术语leaky lightguide指的是一种光学波导，它允许一些光从其边界逸出，而不是完全被限制在内部。这种现象是由于波导材料或设计中的缺陷而发生的，这可能导致光在沿着波导传播时强度的损失。理解leaky lightguide结构背后的原理对于开发更高效的光学系统至关重要，特别是在电信和传感器技术中。leaky lightguide可以与一根沿长度有小孔的花园水管进行比较。虽然水管有效地将水从一个点输送到另一个点，但泄漏导致一些水流失，从而减少整体流量。类似地，leaky lightguide传输光线，但在此过程中会损失一些光。这种泄漏可以是有意的，也可以是无意的，具体取决于应用。例如，在某些传感器应用中，光的泄漏可能是有益的，因为它允许通过测量逸出光的强度来检测周围环境条件。使用leaky lightguide设计在光学系统中的主要优点之一是它们的微型化潜力。传统光学系统通常需要笨重的组件来管理光的传播，但泄漏导体可以集成到更小的设备中，而不牺牲性能。这在紧凑激光器和传感器的开发中尤其有价值，因为空间有限。然而，leaky lightguide结构的挑战在于管理逸出的光量。工程师和科学家必须仔细设计这些导体，以平衡所需的泄漏水平与高效光传输的需求。正在探索先进的材料和制造技术，以创建最小化不必要损失的leaky lightguide系统，同时仍然实现必要的功能。leaky lightguide技术的另一个重要方面是其对通信系统中信号完整性的影响。在光纤通信中，维护传输信号的强度对于确保高数据速率和可靠连接至关重要。通过理解leaky lightguide结构的行为，研究人员可以开发策略来减轻光损失的影响，从而增强通信网络的性能。总之，leaky lightguide的概念在现代光学和光子学中发挥着重要作用。虽然它在光损失方面带来了挑战，但也为紧凑和高效光学系统的设计提供了创新机会。随着技术的不断发展，对leaky lightguide结构的研究无疑会在电信、传感和其他领域带来新的进展。通过拥抱leaky lightguide技术的优缺点，研究人员可以为未来的突破铺平道路，增强我们对光的理解和利用。