selective transmittance

简明释义

选择透射率

英英释义

例句

1.The optical filters utilize selective transmittance 选择性透过率 to allow only specific wavelengths of light to pass through.

光学滤光器利用选择性透过率选择性透过率仅允许特定波长的光通过。

2.By improving selective transmittance 选择性透过率, scientists aim to enhance the performance of optical devices.

通过改善选择性透过率选择性透过率，科学家们旨在提高光学设备的性能。

3.In solar panel technology, selective transmittance 选择性透过率 plays a crucial role in maximizing energy absorption.

在太阳能电池板技术中，选择性透过率选择性透过率 在最大化能量吸收方面起着至关重要的作用。

4.The new window films are designed to enhance selective transmittance 选择性透过率, allowing more natural light while blocking harmful UV rays.

新型窗膜旨在增强选择性透过率选择性透过率，允许更多自然光透入，同时阻挡有害的紫外线。

5.Researchers are exploring materials with high selective transmittance 选择性透过率 for use in energy-efficient buildings.

研究人员正在探索具有高选择性透过率选择性透过率的材料，以用于节能建筑。

作文

In the realm of optics, the term selective transmittance refers to the ability of a material to transmit certain wavelengths of light while absorbing or reflecting others. This property is crucial in various applications, including photography, telecommunications, and even solar energy collection. Understanding selective transmittance allows us to manipulate light in ways that can enhance technological advancements and improve efficiency in numerous fields.For instance, in photography, filters are often used to achieve specific effects by allowing only certain wavelengths of light to pass through. A polarizing filter can reduce glare from reflective surfaces by selectively transmitting light waves that are aligned in a particular direction. This demonstrates how selective transmittance can be harnessed to enhance image quality and provide photographers with greater control over their work.In the field of telecommunications, fiber optic cables utilize the principle of selective transmittance to transmit data over long distances. These cables are designed to allow specific light wavelengths to pass through while minimizing loss and interference. The ability to selectively transmit light plays a pivotal role in ensuring that signals remain strong and clear, which is essential for effective communication in our increasingly digital world.Moreover, selective transmittance is vital in the development of solar panels. By designing materials that selectively transmit certain wavelengths of sunlight, engineers can improve the efficiency of solar energy conversion. For example, some materials are engineered to allow visible light to pass through while blocking infrared radiation, which can help in reducing heat buildup and improving overall energy capture. This application highlights the importance of selective transmittance in renewable energy technologies, as it contributes to creating more efficient and sustainable energy solutions.In addition to these practical applications, selective transmittance also has implications in scientific research. Researchers often use spectrophotometers to measure the selective transmittance of various substances, which can provide insights into their chemical composition and properties. By analyzing how different materials interact with light, scientists can gain a deeper understanding of the natural world and develop new materials with tailored optical properties.In conclusion, selective transmittance is a fundamental concept in optics that has far-reaching implications across multiple disciplines. Its ability to allow certain wavelengths of light to pass while blocking others enables advancements in photography, telecommunications, solar energy, and scientific research. As we continue to explore the potential of light manipulation, the significance of selective transmittance will only grow, paving the way for innovative technologies and solutions that can benefit society as a whole.

在光学领域，术语选择性透过率指的是材料能够传输某些波长的光，同时吸收或反射其他波长的能力。这一特性在摄影、电信，甚至太阳能收集等各个应用中都至关重要。理解选择性透过率使我们能够以增强技术进步和提高多个领域效率的方式操控光。例如，在摄影中，滤镜常常被用来通过允许只有某些波长的光通过来实现特定效果。偏振滤镜可以减少反射表面的眩光，通过选择性地传输以特定方向排列的光波。这展示了如何利用选择性透过率来提升图像质量，并为摄影师提供更大的创作控制。在电信领域，光纤电缆利用选择性透过率的原理在长距离上传输数据。这些电缆被设计成允许特定的光波长通过，同时最小化损失和干扰。选择性传输光的能力在确保信号保持强劲和清晰方面发挥着关键作用，这对于我们日益数字化的世界中的有效沟通至关重要。此外，选择性透过率在太阳能电池板的发展中也是至关重要的。通过设计选择性传输特定波长阳光的材料，工程师可以提高太阳能转化的效率。例如，一些材料被设计成允许可见光通过，同时阻挡红外辐射，这有助于减少热量积聚并改善整体能量捕获。这一应用突显了选择性透过率在可再生能源技术中的重要性，因为它有助于创造更高效和可持续的能源解决方案。除了这些实际应用外，选择性透过率在科学研究中也有重要意义。研究人员常常使用分光光度计来测量各种物质的选择性透过率，这可以提供关于其化学成分和特性的洞察。通过分析不同材料与光的相互作用，科学家们可以深入了解自然界，并开发具有定制光学特性的材料。总之，选择性透过率是光学中的一个基本概念，对多个学科产生深远影响。它允许某些波长的光通过而阻挡其他波长的能力，使得在摄影、电信、太阳能和科学研究等领域取得进展。随着我们继续探索光操控的潜力，选择性透过率的重要性只会增加，为创新技术和解决方案铺平道路，从而造福整个社会。