short distance scatter

简明释义

近距散射

英英释义

例句

1.The short distance scatter 短距离散射 of sound waves can affect how we perceive audio in a room.

声音波的短距离散射可能影响我们在房间内对音频的感知。

2.In this simulation, we observed significant short distance scatter 短距离散射 of light in the fog.

在这个模拟中，我们观察到光在雾中的显著短距离散射。

3.The researchers measured the short distance scatter 短距离散射 of electrons in the material.

研究人员测量了材料中电子的短距离散射。

4.The experiment showed that the particles undergo short distance scatter 短距离散射 when they collide with the surface.

实验表明，当粒子与表面碰撞时，会发生短距离散射。

5.We need to account for the short distance scatter 短距离散射 when designing our optical devices.

在设计我们的光学设备时，我们需要考虑短距离散射。

作文

In the study of physics, particularly in the field of optics, the term short distance scatter refers to the phenomenon where light or other forms of radiation are deflected in various directions after interacting with small particles over a limited range. This concept is crucial for understanding how light behaves as it passes through different mediums, such as air, water, or glass. When light encounters particles that are comparable in size to its wavelength, it can scatter in multiple directions, leading to various optical effects. For instance, the blue color of the sky can be attributed to the short distance scatter of sunlight by the molecules in the atmosphere.The implications of short distance scatter extend beyond mere aesthetics; they play a significant role in numerous scientific and practical applications. In meteorology, for example, understanding how light scatters in the atmosphere helps scientists predict weather patterns and analyze climate change. Similarly, in fields like telecommunications, the principles of short distance scatter are applied to improve signal transmission in fiber optic cables, where light must navigate through various materials.Moreover, the concept of short distance scatter is essential in the design of optical devices. Engineers and scientists must consider how light will scatter when designing lenses, microscopes, and cameras. By controlling and manipulating this scattering effect, they can enhance image quality and resolution. This is particularly important in medical imaging technologies, where precise visualization of internal body structures is necessary for accurate diagnosis and treatment.In everyday life, we encounter short distance scatter in various forms, often without realizing it. For example, when we observe a rainbow, we are witnessing the result of light scattering through raindrops, which acts as tiny prisms, splitting the light into its constituent colors. Similarly, the soft glow of a sunset is a result of short distance scatter, as the sunlight travels through more atmosphere and scatters off particles, creating stunning hues of orange, pink, and purple.Understanding short distance scatter also has significant implications in environmental science. As pollutants scatter light differently than clean air, scientists can monitor air quality by analyzing the scattering patterns of light. This information is vital for public health and safety, as it helps identify areas with high levels of pollution and informs regulatory measures.In conclusion, the phenomenon of short distance scatter is a fundamental concept in various scientific disciplines, influencing everything from meteorology to telecommunications and environmental science. Its effects are observable in our daily lives, from the colors of the sky to the clarity of our visual experiences. By studying and harnessing the principles of short distance scatter, researchers and engineers continue to advance technology and improve our understanding of the natural world.

在物理学的研究中，特别是在光学领域，术语短距离散射指的是光或其他辐射形式在与小颗粒相互作用后，在有限范围内向各个方向偏转的现象。这个概念对于理解光在通过不同介质（如空气、水或玻璃）时的行为至关重要。当光遇到与其波长相当的颗粒时，它会向多个方向散射，从而导致各种光学效果。例如，天空的蓝色可以归因于阳光被大气中的分子短距离散射的结果。短距离散射的影响不仅仅停留在美学层面；它在许多科学和实际应用中发挥着重要作用。例如，在气象学中，理解光在大气中的散射如何工作有助于科学家预测天气模式并分析气候变化。同样，在电信等领域，短距离散射的原理被应用于改善光纤电缆中的信号传输，其中光必须在各种材料中导航。此外，短距离散射的概念在光学设备的设计中至关重要。工程师和科学家在设计透镜、显微镜和相机时，必须考虑光将如何散射。通过控制和操纵这种散射效应，他们可以提高图像质量和分辨率。这在医学成像技术中尤为重要，因为精确可视化内部身体结构对于准确诊断和治疗是必不可少的。在日常生活中，我们以各种形式遇到短距离散射，往往没有意识到。例如，当我们观察到彩虹时，我们目睹了光通过雨滴散射的结果，雨滴充当微小的棱镜，将光分解成其组成颜色。类似地，日落的柔和光辉是短距离散射的结果，因为阳光穿过更多的大气并与颗粒散射，从而创造出迷人的橙色、粉色和紫色的色调。理解短距离散射在环境科学中也具有重要意义。由于污染物的散射光与清洁空气的散射光不同，科学家可以通过分析光的散射模式来监测空气质量。这些信息对于公共健康和安全至关重要，因为它有助于识别污染水平高的区域并通知监管措施。总之，短距离散射现象是各种科学学科中的基本概念，影响着从气象学到电信和环境科学的一切。它的效果在我们的日常生活中是可观察到的，从天空的颜色到我们视觉体验的清晰度。通过研究和利用短距离散射的原理，研究人员和工程师不断推动技术进步并改善我们对自然世界的理解。