diffracted

diffracted的读音是英 ["dɪfræktɪd] ，美 ["dɪfræktɪd]。

基本翻译是“衍射的”。

速记技巧：dif-fract（谐音：地发特）

希望以上内容能对你有所帮助，帮助你更好地理解和记忆这个单词。

"diffracted"这个词源自拉丁语"diffractus"，意为"被分散的"。它的变化形式主要有过去式"diffracted"，现在分词"diffracting"，以及形容词形式"diffractive"。

相关单词：

1. "diffraction"（衍射）: 这是"diffractio"的英语翻译，指的是光线或波在通过透明或半透明物质时分散的现象。

2. "diffraction pattern"（衍射图样）: 这是衍射现象的图像或模式，通常用于描述光线或波通过物质后的分散情况。

3. "diffraction-resistant"（抗衍射的）: 描述物体或图像在抗衍射方面表现良好的特性。

4. "diffraction-free"（无衍射的）: 描述物体或图像没有受到衍射影响，保持其原始形状或清晰度的特性。

5. "diffraction-limited"（受衍射限制的）: 描述某种性能或技术受到衍射限制的情况。

6. "diffraction-free zone"（无衍射区域）: 描述一个不受衍射影响的空间或区域。

7. "diffraction-free optical system"（无衍射光学系统）: 一种设计理念，旨在消除或减少光学系统中的衍射效应。

8. "diffraction-based"（基于衍射的）: 描述一种基于衍射原理或技术的方法或系统。

9. "diffraction-enhanced light emission"（衍射增强发光）: 一种发光现象，通常在某些材料中，当光通过特定的结构时，可以增强光的发射并减少衍射效应。

10. "diffraction-free focusing"（无衍射聚焦）: 描述一种聚焦方法或技术，旨在消除或减少聚焦过程中的衍射效应。

常用短语：

1. diffracted light 衍射光

2. diffracted pattern 衍射图样

3. diffracted wave 衍射波

4. diffracted field 衍射场

5. diffracted order 衍射级次

6. diffracted radiation 衍射辐射

7. diffracted wavefront 衍射波前

双语例句：

1. The light passing through a slit is diffracted by the presence of a grating.

穿过狭缝的光线由于光栅的存在而发生衍射。

2. The diffracted light from a crystal can be used to identify its type and orientation.

晶体产生的衍射光可以被用来识别其类型和取向。

3. The diffracted pattern on a photographic plate is used to create a visual representation of an object"s shape.

照相底片上的衍射图样被用来创建物体形状的视觉表现。

英文小作文：

Diffracted Light: A Journey into the World of Quantum Physics

Diffracted light, a phenomenon observed in optics, is a quantum mechanical manifestation of light that has been scattered or diffracted by an obstacle or pattern. This phenomenon plays a crucial role in various fields such as astronomy, biology, and material science, where it is used to study the structure and behavior of matter at the atomic level.

Diffracted light is a result of light waves being scattered or bent by an obstacle or pattern, resulting in a spread out pattern of light rays. This phenomenon is closely related to the wave-particle duality of light, which is one of the fundamental principles of quantum mechanics. Understanding diffracted light has opened up new avenues of research in the field of quantum physics, leading to advancements in technology and medicine, among other fields.

From the study of star patterns to the structure of living cells, diffracted light has played a pivotal role in unlocking the secrets of the universe. As we continue to explore the quantum realm, diffracted light will undoubtedly continue to play an important role in our understanding of the world around us.