antireflective

简明释义

英[ˌæntiˈrɛflɛktɪv]美[ˌæntiˈrɛflɛktɪv]

adj. 增透的；减反射的；[物] 抗反射的

英英释义

单词用法

同义词

反义词

例句

1."Pressure relief antireflective" technology is to improve the soft low-permeability coal seam gas extraction rate in an effective way.

“卸压增透”技术是提高松软低透气性煤层瓦斯抽采率的有效途径。

2.A technology based on plasma etching has been developed to produce antireflective surface structures.

提出一种基于等离子体刻蚀的技术，形成减反射表面结构。

3.Today, the antireflective coating on solar cells is optimized to the wavelength of the solar spectrum emitting the largest amount of photons (light particles).

今天，太阳能电池上的抗反射涂层尽量充分利用太阳光谱波长，排放最大量光粒子。

4.This paper describes the polymerization of monomer containing fluorine by the low-temperature plasma glow discharge to produce the antireflective films which deposited on textured solar cells.

采用低温等离子体辉光放电技术，用含氟有机单体在硅太阳电池表面聚合成膜。

5.The main contributions of this paper are as follows. 1. The antireflective performance of subwavelength gratings was investigated by the rigorous coupled-wave analysis method.

主要研究工作可归纳如下：1。利用严格耦合波分析理论设计了多种抗反射元件。

6.In this paper, we report the preparation and performances of the sol gel antireflective and protective coatings on KDP crystals.

报道了溶胶-凝胶工艺制备的KDP晶体保护膜、增透膜和它们的性能。

7.This paper describes the polymerization of monomer containing fluorine by the low-temperature plasma glow discharge to produce the antireflective films which deposited on textured solar cells.

采用低温等离子体辉光放电技术，用含氟有机单体在硅太阳电池表面聚合成膜。

8.The results demonstrate that the error with medium boundary conditions is smaller than that with antireflective boundary conditions.

试验结果表明中值边界条件的误差比逆反射边界条件误差小。

9.The light capturing film comprises of a cross-linked fluoropolymer antireflective coating on top of an optically clear carrier film.

光捕获膜包括在光透明载体膜上的交联含氟聚合物抗反射涂层。

10.The additional cost for incorporating our antireflective coating should not exceed two to four percent of that for existing solar cells, " Lin said.

结合上我们抗反射涂层所增加的成本，不会超过现在太阳能电池成本的百分之二到百分之四。

11.Using antireflective 防反射的 film on windows can help reduce energy costs by minimizing heat gain.

在窗户上使用防反射的薄膜可以通过减少热量增加来帮助降低能源成本。

12.The antireflective 防反射的 properties of this material make it ideal for use in optical devices.

这种材料的防反射的特性使其非常适合用于光学设备。

13.The camera lens has an antireflective 防反射的 coating that helps improve image quality.

这个相机镜头具有防反射的涂层，有助于改善图像质量。

14.The new smartphone features an antireflective 防反射的 screen that makes it easier to view in bright sunlight.

这款新智能手机配备了一个防反射的屏幕，使其在强光下更容易查看。

15.I decided to buy glasses with antireflective 防反射的 coating to reduce glare from computer screens.

我决定购买涂有防反射的镜片，以减少电脑屏幕的眩光。

作文

In today's world, technology plays a crucial role in our daily lives. One of the most important inventions that have significantly impacted our communication and entertainment is the smartphone. However, as we use smartphones for extended periods, we often encounter issues such as glare and reflections on the screens. This is where innovations like antireflective (抗反射的) coatings come into play. These coatings are designed to reduce the amount of light that reflects off the surface of the screen, making it easier to see the display in bright environments.The importance of antireflective (抗反射的) technology extends beyond just smartphones. It is also widely used in various optical devices, including glasses, camera lenses, and even computer monitors. For instance, individuals who wear glasses with antireflective (抗反射的) coatings experience less glare from artificial lighting and screens, which can lead to improved vision comfort and reduced eye strain. This is particularly beneficial for people who spend long hours working on computers or engaging in activities that require visual focus.Moreover, the application of antireflective (抗反射的) coatings has enhanced the overall user experience across different devices. In photography, lenses treated with antireflective (抗反射的) materials allow for clearer images by minimizing unwanted reflections that can distort photos. Similarly, in the realm of virtual reality, headsets equipped with antireflective (抗反射的) screens provide users with a more immersive experience by reducing distractions caused by reflections.The science behind antireflective (抗反射的) coatings involves the use of thin films that interfere with light waves. When light hits the surface of a lens or screen, some of it reflects while the rest passes through. By applying a layer of antireflective (抗反射的) material, the reflected light can be diminished due to destructive interference, resulting in a clearer view. This technology showcases how advancements in materials science can lead to practical solutions for everyday problems.As we continue to innovate and develop new technologies, the demand for antireflective (抗反射的) solutions will likely grow. With the rise of augmented reality and advanced display technologies, having screens that minimize reflections will become increasingly important. Future developments may include even more effective antireflective (抗反射的) coatings that not only reduce glare but also enhance durability and scratch resistance.In conclusion, the role of antireflective (抗反射的) technology in our lives cannot be overstated. It improves our visual experiences across various devices, from smartphones to glasses and cameras. As technology continues to evolve, we can expect further enhancements in antireflective (抗反射的) solutions, ultimately leading to better usability and comfort for consumers. Understanding and appreciating these innovations helps us recognize the intricate relationship between science and our daily experiences.

在当今世界，科技在我们日常生活中发挥着至关重要的作用。智能手机是对我们沟通和娱乐影响深远的重要发明之一。然而，当我们长时间使用智能手机时，常常会遇到屏幕上的眩光和反射等问题。这就是像抗反射的涂层这样的创新发挥作用的地方。这些涂层旨在减少反射在屏幕表面上光线的数量，使其在明亮环境中更容易看到显示。抗反射的技术的重要性不仅限于智能手机。它还广泛应用于各种光学设备，包括眼镜、相机镜头，甚至计算机显示器。例如，佩戴有抗反射的涂层的眼镜的人在人工照明和屏幕上体验到的眩光较少，这可以提高视觉舒适度，减少眼睛疲劳。这对于那些长时间在计算机上工作或参与需要视觉专注的活动的人尤其有益。此外，抗反射的涂层的应用提升了不同设备的整体用户体验。在摄影中，经过抗反射的材料处理的镜头通过最小化可能扭曲照片的反射，允许更清晰的图像。同样，在虚拟现实领域，配备有抗反射的屏幕的头戴设备通过减少反射引起的干扰，为用户提供更沉浸的体验。抗反射的涂层背后的科学涉及使用薄膜以干涉光波。当光线撞击透镜或屏幕的表面时，部分光线会反射，而其余部分则会穿透。通过施加一层抗反射的材料，反射的光线由于破坏性干涉而减少，从而实现更清晰的视野。这项技术展示了材料科学的进步如何为日常问题提供实用解决方案。随着我们继续创新和开发新技术，对抗反射的解决方案的需求可能会不断增长。随着增强现实和先进显示技术的崛起，拥有能够最小化反射的屏幕将变得越来越重要。未来的发展可能包括更有效的抗反射的涂层，不仅能减少眩光，还能增强耐用性和抗划伤性。总之，抗反射的技术在我们生活中的作用不可低估。它改善了我们在各种设备上的视觉体验，从智能手机到眼镜和相机。随着技术的不断发展，我们可以期待抗反射的解决方案的进一步增强，最终为消费者带来更好的可用性和舒适度。理解和欣赏这些创新帮助我们认识到科学与我们日常体验之间复杂的关系。