dichroic

简明释义

英[daɪˈkrəʊɪk]美[daɪˈkroʊɪk]

adj. （溶液或单轴晶体）呈不同色的，二色性的；分光的

英英释义

单词用法

同义词

反义词

例句

1.The use of the second collection optic 406 to reduce the cone Angle of the light that passes through the wavelength converting element 110 improves the performance of the second dichroic filter 408.

使用第二收集光学器件406来减小穿过波长转换元件110传递的光的锥角改进了第二二向色滤光片408的性能。

2.The dichroic prism is one of the key units often used in some ranging meter systems, and the dichroic film is most critical to it.

分光棱镜是一些测距系统中的关键元件，而分光膜又是关键中的关键。

3.An optical concentrator 108 receives the light from the collection optic 104 through a dichroic filter 106.

光学集中器108通过二向色滤光片106接收来自收集光学器件104的光。

4.A dichroic guest-host polarizer comprises an oriented polymerized liquid crystal host and aligned therewith a dichroic guest.

本发明提供一种二色性宾-主起偏振器，其包括取向的聚合的液晶主体和随此取向的二色性客体。

5.A method of determining the incident angles distribution on dichroic mirror is presented, according to the theoretic analysis of working condition of dichroic mirror in optical engine.

本文通过对二向分色镜在投影光路中工作状态的模拟和分析，提出了一种计算分色镜上光束入射角分布的计算方法并推导了相应的表达式。

6.Thus, back emitted light is reflected by the dichroic filter 106 towards wavelength converting element 110.

因此，反向发射的光被二向色滤光片106朝向波长转换元件110反射。

7.Our dichroic coatings are applied in a vacuum deposition process.

我们的双色向涂层应用于真空沉积过程。

8.The new smartphone features a dichroic display that changes color based on the angle of light.

这款新智能手机配备了一个二色性显示屏，颜色会根据光线的角度而变化。

9.He chose a dichroic coating for his telescope to improve its optical performance.

他为他的望远镜选择了二色性涂层，以提高其光学性能。

10.The artist used a dichroic glass to create stunning light effects in her sculpture.

艺术家使用了二色性玻璃来在她的雕塑中创造惊人的光效。

11.The dichroic filters are essential in high-end photography to enhance color saturation.

在高端摄影中，二色性滤镜是增强色彩饱和度的关键。

12.In the laboratory, we observed the dichroic properties of the mineral under polarized light.

在实验室，我们在偏振光下观察到了矿物的二色性特性。

作文

In the world of optics, many phenomena capture our imagination, but few are as intriguing as the concept of dichroic. The term dichroic originates from the Greek words 'dichroos', meaning 'two colors', and 'icos', meaning 'having the quality of'. This fascinating characteristic allows certain materials to display two different colors when viewed from different angles or under varying lighting conditions. One of the most common applications of dichroic materials can be found in the field of art, particularly in glasswork and jewelry design. Artists utilize dichroic glass to create stunning pieces that change color based on the viewer's perspective, making each item unique and dynamic.The science behind dichroic materials is equally captivating. These materials are typically made by layering thin films of metal oxides onto a substrate. When light hits these layers, it interacts with the different wavelengths, causing certain colors to be reflected while others are transmitted. This selective filtering creates the striking visual effects associated with dichroic surfaces. In practical terms, this means that a piece of dichroic glass may appear blue when viewed from one angle, but shift to a rich green when seen from another. Such properties make dichroic materials popular not only in decorative arts but also in high-tech applications like lasers and optical filters.Another fascinating aspect of dichroic technology is its use in modern architecture. Architects and designers have begun to incorporate dichroic glass panels into buildings, creating facades that change appearance throughout the day. This dynamic quality not only enhances the aesthetic appeal of structures but also plays with light and shadow in innovative ways. For instance, a building clad in dichroic glass may appear vibrant and colorful during daylight, while at night, it may take on a more subdued tone. This interaction with natural and artificial light adds a layer of complexity to architectural design, making it more engaging for observers.Moreover, the versatility of dichroic materials extends beyond aesthetics; they also serve functional purposes. In the field of electronics, dichroic filters are used in various devices, including cameras and projectors, to enhance image quality and color accuracy. By selectively filtering out unwanted wavelengths, dichroic filters help ensure that the colors captured or projected are true to life. This technological application highlights how the principles of dichroic materials can bridge the gap between art and science, showcasing their importance in both realms.In conclusion, the concept of dichroic is a remarkable intersection of art, science, and technology. Whether in the form of stunning glass artworks, innovative architectural designs, or essential electronic components, dichroic materials captivate our senses and challenge our perceptions. As we continue to explore the potential of dichroic technology, we open ourselves to a world where color, light, and creativity converge in extraordinary ways. The journey of understanding dichroic materials is not just about appreciating their beauty; it is also about recognizing their significance in enhancing our everyday experiences.

在光学世界中，许多现象吸引着我们的想象力，但很少有像dichroic这个概念一样引人入胜。dichroic一词源自希腊语中的“dichroos”，意为“两种颜色”，以及“icos”，意为“具有某种特性”。这种迷人的特性使某些材料能够在不同的角度或不同的光照条件下显示两种不同的颜色。dichroic材料的最常见应用之一可以在艺术领域找到，特别是在玻璃工艺和珠宝设计中。艺术家利用dichroic玻璃创作出令人惊叹的作品，这些作品根据观众的视角变化颜色，使每件物品都独特而富有活力。dichroic材料背后的科学同样引人入胜。这些材料通常是通过将金属氧化物的薄膜层叠加到基材上制成的。当光线照射到这些层时，它与不同的波长相互作用，导致某些颜色被反射，而其他颜色则被透过。这种选择性过滤创造了与dichroic表面相关的引人注目的视觉效果。在实际应用中，这意味着一块dichroic玻璃在一个角度看起来可能是蓝色的，但从另一个角度看则变为丰富的绿色。这种特性使得dichroic材料在装饰艺术和高科技应用（如激光和光学滤光器）中都非常受欢迎。dichroic技术的另一个迷人方面是在现代建筑中的使用。建筑师和设计师开始将dichroic玻璃面板纳入建筑中，创造出随着时间推移而改变外观的外立面。这种动态特性不仅增强了建筑的美学吸引力，还以创新的方式与光影互动。例如，一座包覆dichroic玻璃的建筑在白天可能显得生动多彩，而在夜间则可能呈现出更柔和的色调。这种与自然光和人造光的互动为建筑设计增添了一层复杂性，使其对观察者更加吸引。此外，dichroic材料的多功能性超越了美学；它们也发挥着功能性作用。在电子领域，dichroic滤光器被用于各种设备，包括相机和投影仪，以增强图像质量和颜色准确性。通过选择性地过滤掉不需要的波长，dichroic滤光器帮助确保捕捉或投影的颜色真实可信。这一技术应用突显了dichroic材料的原理如何在艺术与科学之间架起桥梁，展示了它们在这两个领域的重要性。总之，dichroic的概念是艺术、科学和技术的一个非凡交集。无论是以惊艳的玻璃艺术品、创新的建筑设计，还是基本的电子元件的形式，dichroic材料都吸引着我们的感官，挑战着我们的认知。当我们继续探索dichroic技术的潜力时，我们向一个色彩、光线和创造力交汇的世界敞开大门。理解dichroic材料的旅程不仅仅是欣赏它们的美丽；它还涉及到认识到它们在提升我们日常体验中的重要性。