absorption filter

简明释义

吸收滤光片;

英英释义

例句

1.The aquarium uses an absorption filter to remove harmful UV radiation from the water.

水族馆使用吸收滤光器去除水中的有害紫外线辐射。

2.In photography, an absorption filter can enhance colors by blocking certain wavelengths.

在摄影中，吸收滤光器可以通过阻挡某些波长来增强颜色。

3.An absorption filter is essential in spectroscopy to analyze chemical compositions.

在光谱学中，吸收滤光器对于分析化学成分至关重要。

4.The scientist used an absorption filter to isolate specific wavelengths of light for the experiment.

科学家使用了一个吸收滤光器来隔离实验中特定波长的光。

5.When designing a laser system, choosing the right absorption filter can improve efficiency.

在设计激光系统时，选择合适的吸收滤光器可以提高效率。

作文

In the world of optics, various tools and devices are utilized to manipulate light for different purposes. One such device is the absorption filter, which plays a crucial role in controlling the wavelengths of light that pass through it. An absorption filter is designed to absorb certain wavelengths of light while allowing others to pass. This selective absorption is essential in many applications, including photography, scientific research, and even industrial processes.The basic principle behind an absorption filter involves the interaction of light with matter. When light encounters the filter material, specific wavelengths are absorbed due to the electronic structure of the atoms within the filter. For instance, a filter made from colored glass may absorb all wavelengths except for those corresponding to its color. This property is particularly useful in photography, where capturing the right colors is vital for producing high-quality images.In scientific research, absorption filters are often used in spectroscopy, a technique that analyzes the interaction between light and matter. By using these filters, researchers can isolate specific wavelengths of light emitted or absorbed by substances, providing valuable information about their composition and properties. This application is critical in fields such as chemistry and environmental science, where understanding the behavior of different materials under various light conditions can lead to significant discoveries.Moreover, absorption filters are also employed in industrial applications, such as manufacturing and quality control. For example, in the production of certain materials, it is necessary to monitor the light absorption characteristics to ensure that the final product meets specific standards. By utilizing absorption filters, manufacturers can detect any deviations in the material's properties during the production process, allowing for timely adjustments and maintaining quality assurance.Another fascinating aspect of absorption filters is their use in artistic endeavors. Artists often experiment with different types of filters to create unique visual effects in their work. By strategically placing an absorption filter in front of a light source, they can alter the mood and atmosphere of their art, guiding viewers' emotions and perceptions. This creative application showcases the versatility of absorption filters beyond their scientific and industrial uses.In conclusion, the absorption filter is a powerful tool that significantly influences various fields, from photography to scientific research and industrial processes. Its ability to selectively absorb wavelengths of light makes it invaluable in achieving desired outcomes, whether capturing stunning images, conducting precise experiments, or ensuring high-quality production standards. As technology continues to advance, the applications of absorption filters are likely to expand further, highlighting their importance in both practical and creative contexts.

在光学世界中，各种工具和设备被用来操控光以实现不同的目的。其中一种设备是吸收滤光器，它在控制通过它的光波长方面发挥着至关重要的作用。吸收滤光器旨在吸收某些波长的光，同时允许其他波长通过。这种选择性吸收在许多应用中都是必不可少的，包括摄影、科学研究甚至工业过程。吸收滤光器的基本原理涉及光与物质的相互作用。当光遇到滤光材料时，由于滤光器内原子的电子结构，特定的波长被吸收。例如，由彩色玻璃制成的滤光器可能吸收除了其颜色所对应的波长之外的所有波长。这一特性在摄影中尤为重要，因为捕捉正确的颜色对于产生高质量图像至关重要。在科学研究中，吸收滤光器通常用于光谱学，这是一种分析光与物质相互作用的技术。通过使用这些滤光器，研究人员可以隔离由物质发射或吸收的特定波长的光，从而提供有关其组成和性质的有价值信息。这种应用在化学和环境科学等领域中至关重要，因为理解在各种光照条件下不同材料的行为可以导致重大发现。此外，吸收滤光器还广泛应用于工业，如制造和质量控制。例如，在某些材料的生产过程中，有必要监测光吸收特性，以确保最终产品符合特定标准。通过利用吸收滤光器，制造商可以在生产过程中检测到材料特性中的任何偏差，从而进行及时调整并保持质量保证。吸收滤光器的另一个迷人之处在于它们在艺术创作中的应用。艺术家们经常尝试不同类型的滤光器，以在他们的作品中创造独特的视觉效果。通过在光源前战略性地放置吸收滤光器，他们可以改变艺术作品的氛围和情感，引导观众的情感和感知。这一创造性应用展示了吸收滤光器在科学和工业用途之外的多样性。总之，吸收滤光器是一种强大的工具，显著影响着从摄影到科学研究和工业过程的各个领域。它选择性吸收光波长的能力使其在实现期望结果方面具有不可替代的价值，无论是捕捉惊艳的图像、进行精确的实验，还是确保高质量的生产标准。随着技术的不断进步，吸收滤光器的应用可能会进一步扩展，突显其在实际和创造性背景中的重要性。