diffractive
简明释义
adj. 衍射的;绕射的
英英释义
Relating to or resulting from diffraction, which is the bending of waves around obstacles and the spreading of waves when they pass through small openings. | 与衍射相关或由衍射引起的,衍射是指波在障碍物周围弯曲以及波通过狭小开口时扩散的现象。 |
单词用法
衍射光栅,一种用于分散光波的装置 | |
衍射透镜,利用衍射原理聚焦光线的透镜 | |
衍射波前,描述光波在衍射过程中形状变化的术语 | |
衍射成像,利用衍射现象进行成像的技术 |
同义词
| 衍射的 | The diffractive optics can manipulate light in innovative ways. | 衍射光学可以以创新的方式操控光线。 | |
| 折射的 | 折射率是镜头设计中的一个关键参数。 | ||
| 色散的 | Dispersive elements are used to separate different wavelengths of light. | 色散元件用于分离不同波长的光。 |
反义词
| 反射的 | The reflective surfaces of the mirrors enhanced the clarity of the image. | 镜子的反射表面增强了图像的清晰度。 | |
| 非衍射的 | Non-diffractive lenses are used to minimize distortion in optical systems. | 非衍射透镜用于最小化光学系统中的失真。 |
例句
1.Diffractive-optical element, scanning optical system, optical scanner, and image forming apparatus.
光学衍射元件,光学扫描系统,光扫描器和图像形成装置。
2.The diffractive efficiency of the grating is computed by using rigorous coupled-wave analysis (RCWA). The property of polarization of the grating is also discussed.
采用严格耦合波分析(RCWA)理论计算了这种一维深亚波长光栅的衍射效率,分析了它的偏振特性。
3.The effect the diffractive optical characteristic by the surface bending of two-dimensional grating light modulator (GLM) is disaused.
讨论了二维光栅光调制器阵列的表面弯曲度对衍射光学特性的影响。
4.Four kinds of laser source are used to measure the diffractive efficiency of Fresnel lens.
使用四种不同光源,对菲涅耳透镜的衍射效率进行测试。
5.With the techniques and elements of diffractive optics, it is now feasible to break the diffraction limit and achieve optical superresolution.
利用衍射光学的技术与器件,能够突破受限于衍射极限的分辨率,实现光学超分辨。
6.The excipient of the drugs did not interfere with the main specific diffractive peaks.
制剂中的辅料不干扰对主要特征衍射峰的判断;
7.Laser direct writing system is the key equipment for fabrication of optical diffractive elements, and the defocus detection technique is the important sub-tech in it.
激光直写机是制作衍射光学元件的关键设备,离焦检测技术是其中的重要单元技术之一。
8.There have been rapid developments in the research of diffractive optics for the past decade.
衍射光学是近年来光学领域中最具活力的研究方向之一。
9.The artist incorporated diffractive materials into their installation to create visual effects.
这位艺术家在他们的装置中融入了衍射材料,以创造视觉效果。
10.Researchers are exploring diffractive optics to enhance the performance of laser systems.
研究人员正在探索衍射光学,以提高激光系统的性能。
11.Using diffractive elements, we can manipulate light in innovative ways.
利用衍射元件,我们可以以创新的方式操控光。
12.The diffractive lens design allows for sharper images by bending light more effectively.
这种衍射透镜设计通过更有效地弯曲光线来实现更清晰的图像。
13.The diffractive pattern created by the grating was essential for the experiment.
光栅产生的衍射图案对实验至关重要。
作文
Light is a fascinating phenomenon that has intrigued scientists and artists alike for centuries. One of the most interesting aspects of light is its ability to bend, spread, and create patterns when it encounters different materials. This behavior can be described as diffractive (衍射的) in nature. The study of diffractive (衍射的) optics has led to numerous advancements in technology, art, and our understanding of the universe.To understand how diffractive (衍射的) effects work, one must first comprehend the basic principles of light. Light travels in waves, and when it encounters an obstacle or a slit that is comparable in size to its wavelength, it spreads out instead of just casting a shadow. This spreading is what we refer to as diffraction (衍射). The patterns created by diffractive (衍射的) phenomena can be seen in everyday life, such as the colorful patterns on a CD or the shimmering colors on a soap bubble.The applications of diffractive (衍射的) optics are vast and varied. In telecommunications, diffractive (衍射的) elements are used in devices like fiber optic cables, which rely on the principles of light transmission and diffraction (衍射) to transmit data at high speeds over long distances. These technologies have revolutionized communication, making it possible for people to connect instantly across the globe.In the field of medicine, diffractive (衍射的) optics plays a crucial role in imaging techniques. For instance, in optical coherence tomography (OCT), diffractive (衍射的) principles are employed to create high-resolution images of biological tissues. This non-invasive imaging technique allows doctors to diagnose conditions with greater accuracy, leading to better patient outcomes.Moreover, artists have also embraced the concept of diffractive (衍射的) light in their work. Many modern artists experiment with light and shadow to create immersive installations that play with the viewer's perception. By using diffractive (衍射的) materials, they can manipulate light to produce stunning visual effects that challenge our understanding of space and form.In conclusion, the term diffractive (衍射的) encompasses a wide range of phenomena related to the behavior of light. From technological advancements in communication and medicine to artistic expressions that captivate the imagination, diffractive (衍射的) optics is a field that continues to evolve and inspire. Understanding these principles not only enhances our appreciation of the natural world but also opens doors to new possibilities in various fields of study and creativity. As we delve deeper into the mysteries of light, we uncover the intricate connections between science, art, and the human experience.
光是一种迷人的现象,几个世纪以来一直吸引着科学家和艺术家。光最有趣的方面之一是它在遇到不同材料时弯曲、扩散和创造图案的能力。这种行为可以被描述为diffractive(衍射的)。对diffractive(衍射的)光学的研究已经导致了技术、艺术和我们对宇宙理解的许多进步。要理解diffractive(衍射的)效应是如何工作的,首先必须理解光的基本原理。光以波的形式传播,当它遇到与其波长相当的障碍物或狭缝时,它会扩散而不是仅仅投下阴影。这种扩散就是我们所称的diffraction(衍射)。由diffractive(衍射的)现象产生的图案可以在日常生活中看到,例如CD上的彩色图案或肥皂泡上的闪烁颜色。Diffractive(衍射的)光学的应用广泛而多样。在电信领域,diffractive(衍射的)元件用于光纤电缆等设备,这些设备依赖于光传输和diffraction(衍射)的原理,以高速传输数据。这些技术彻底改变了通信,使人们能够跨越全球即时连接。在医学领域,diffractive(衍射的)光学在成像技术中发挥着至关重要的作用。例如,在光学相干断层扫描(OCT)中,diffractive(衍射的)原理被用来创建生物组织的高分辨率图像。这种非侵入性成像技术使医生能够更准确地诊断病症,从而改善患者的治疗效果。此外,艺术家们也开始在他们的作品中采用diffractive(衍射的)光的概念。许多现代艺术家利用光和阴影进行实验,创造出与观众感知互动的沉浸式装置。通过使用diffractive(衍射的)材料,他们可以操控光线,产生令人惊叹的视觉效果,挑战我们对空间和形状的理解。总之,diffractive(衍射的)一词涵盖了与光的行为相关的广泛现象。从通信和医学的技术进步到吸引想象力的艺术表达,diffractive(衍射的)光学是一个不断发展和激励的领域。理解这些原理不仅增强了我们对自然世界的欣赏,还为各个研究和创造领域的新可能性打开了大门。当我们深入探讨光的奥秘时,我们揭示了科学、艺术和人类体验之间错综复杂的联系。
