limiting resolution

简明释义

极限分解力

英英释义

例句

1.In digital displays, the limiting resolution determines how sharp the text appears.

在数字显示中，限制分辨率决定了文本的清晰程度。

2.In microscopy, the limiting resolution defines the smallest detail that can be observed.

在显微镜学中，限制分辨率定义了可以观察到的最小细节。

3.The camera's limiting resolution affects the clarity of the images taken.

相机的限制分辨率影响拍摄图像的清晰度。

4.When scanning documents, the limiting resolution can impact the quality of the scanned image.

在扫描文档时，限制分辨率会影响扫描图像的质量。

5.The printer's limiting resolution is crucial for producing high-quality prints.

打印机的限制分辨率对生产高质量打印件至关重要。

作文

In the field of optics, the term limiting resolution refers to the smallest distinguishable detail that an optical system can resolve. This concept is crucial for various applications, including photography, microscopy, and astronomical observations. The ability to discern fine details depends significantly on the quality of the optical components and the inherent physical limitations of light itself. Understanding limiting resolution helps scientists and engineers design better instruments and improve image quality.To illustrate this, let's consider a microscope. The limiting resolution of a microscope determines how close two points can be to each other while still being viewed as separate entities. If the distance between the points is smaller than the limiting resolution, they will appear as a single blurred point. This phenomenon arises due to diffraction, which is the bending of light waves around obstacles. The smaller the wavelength of light used in the microscope, the higher the potential limiting resolution.Another example can be found in photography. The limiting resolution of a camera lens affects how crisp and clear an image appears. High-quality lenses are designed to minimize aberrations and maximize the limiting resolution, allowing photographers to capture stunning images with intricate details. However, even the best lenses have a maximum limiting resolution dictated by the laws of physics, particularly the diffraction limit.In astronomy, telescopes also face challenges related to limiting resolution. When astronomers observe distant celestial objects, they rely on telescopes to gather light and provide detailed images. However, atmospheric conditions and the inherent limiting resolution of the telescope can hinder their ability to see fine details. Innovations such as adaptive optics have been developed to counteract these limitations, enhancing the limiting resolution and allowing astronomers to study the universe more effectively.The implications of limiting resolution extend beyond optics; they also touch on the broader themes of technology and human perception. As we push the boundaries of what is possible with imaging technologies, we must continually confront the limiting resolution imposed by nature. This understanding drives innovation, prompting researchers to develop new methods and materials that can enhance our ability to observe and understand the world around us.In conclusion, the concept of limiting resolution is fundamental in various scientific fields, influencing the design and effectiveness of optical systems. Whether it is through microscopes, cameras, or telescopes, the limiting resolution defines how much detail we can perceive. As technology advances, our pursuit of overcoming these limitations will undoubtedly lead to new discoveries and a deeper understanding of both the microscopic and macroscopic worlds. By grasping the significance of limiting resolution, we can appreciate the intricacies of the universe and the tools we use to explore it.

在光学领域，术语limiting resolution指的是光学系统能够分辨的最小可区分细节。这个概念对于摄影、显微镜和天文观测等各种应用至关重要。分辨细节的能力在很大程度上取决于光学组件的质量以及光本身固有的物理限制。理解limiting resolution有助于科学家和工程师设计更好的仪器并提高图像质量。为了说明这一点，让我们考虑显微镜。显微镜的limiting resolution决定了两个点之间可以多近而仍然被视为分开的实体。如果两个点之间的距离小于limiting resolution，它们将呈现为一个模糊的单一点。这种现象是由于衍射引起的，衍射是光波绕过障碍物弯曲的现象。显微镜中使用的光波长越小，潜在的limiting resolution就越高。另一个例子可以在摄影中找到。相机镜头的limiting resolution影响图像的清晰度和清晰度。高质量镜头旨在最小化像差并最大化limiting resolution，使摄影师能够捕捉到细致入微的惊人图像。然而，即使是最好的镜头也有一个由物理法则特别是衍射极限决定的最大limiting resolution。在天文学中，望远镜也面临与limiting resolution相关的挑战。当天文学家观察遥远的天体时，他们依赖望远镜来收集光并提供详细图像。然而，大气条件和望远镜固有的limiting resolution可能会妨碍他们看清细节。适应性光学等创新技术已被开发出来以抵消这些限制，提高limiting resolution，使天文学家能够更有效地研究宇宙。limiting resolution的影响超出了光学，它们还涉及到技术和人类感知的更广泛主题。当我们推动成像技术的可能性边界时，我们必须不断面对自然施加的limiting resolution。这种理解推动了创新，促使研究人员开发新的方法和材料，以增强我们观察和理解周围世界的能力。总之，limiting resolution的概念在各个科学领域都是基础性的，影响着光学系统的设计和有效性。无论是通过显微镜、相机还是望远镜，limiting resolution定义了我们能够感知的细节量。随着技术的进步，我们克服这些限制的追求无疑将导致新的发现，并加深我们对微观和宏观世界的理解。通过掌握limiting resolution的重要性，我们可以欣赏宇宙的复杂性以及我们用来探索它的工具。