refraction correction

简明释义

蒙气差改正

英英释义

例句

1.The optometrist explained that the glasses would provide a refraction correction 屈光矫正 for my nearsightedness.

验光师解释说，眼镜将为我的近视提供refraction correction 屈光矫正。

2.During the eye exam, the doctor noted the need for refraction correction 屈光矫正 due to my astigmatism.

在眼科检查中，医生指出由于我的散光需要进行refraction correction 屈光矫正。

3.To improve the accuracy of the survey, the engineer applied a refraction correction 屈光矫正 to the elevation readings.

为了提高测量的准确性，工程师对海拔读数进行了refraction correction 屈光矫正。

4.In astronomy, refraction correction 屈光矫正 is essential for accurate measurements of celestial objects.

在天文学中，refraction correction 屈光矫正 对于准确测量天体是必不可少的。

5.The camera settings required a refraction correction 屈光矫正 to capture clear images through the lens.

相机设置需要进行refraction correction 屈光矫正，以便通过镜头拍摄清晰的图像。

作文

Refraction correction is a crucial aspect of optical science that deals with the bending of light as it passes through different mediums. When light travels from one medium to another, such as from air to water, it changes speed and direction due to the varying densities of these materials. This phenomenon is known as refraction. However, in various applications, especially in optics and vision correction, it becomes essential to apply refraction correction (折射修正) to ensure clarity and precision. In everyday life, many people rely on glasses or contact lenses to correct their vision. These optical devices are designed based on the principles of refraction and require accurate refraction correction (折射修正) to function effectively. When an individual has a refractive error, such as myopia (nearsightedness) or hyperopia (farsightedness), their eyes do not bend light properly. This results in blurred vision, making it difficult to see objects clearly at certain distances. To address this issue, optometrists conduct comprehensive eye examinations to determine the degree of refractive error. The results guide the selection of appropriate lenses that provide the necessary refraction correction (折射修正). For instance, concave lenses are used for myopic patients, while convex lenses are prescribed for those who are hyperopic. The goal is to adjust the focal point of the incoming light so that it hits the retina correctly, allowing for sharp vision. Moreover, refraction correction (折射修正) is not limited to eyeglasses and contact lenses. It also plays a significant role in various scientific and technological fields. For example, in photography, lenses must be calibrated to account for refraction when capturing images. If not corrected, the final photograph may appear distorted or out of focus. Similarly, in astronomy, telescopes utilize refraction correction (折射修正) to ensure that distant celestial bodies are observed accurately. Without proper adjustments, the observations could lead to erroneous conclusions about the universe. The advancements in technology have also led to innovative methods of refraction correction (折射修正). Laser eye surgeries, such as LASIK, have become popular alternatives to traditional corrective lenses. These procedures involve reshaping the cornea to improve how light is refracted within the eye. Patients often experience immediate results, with many achieving 20/20 vision post-surgery. While these surgical options offer significant benefits, they also come with risks and require thorough pre-operative evaluations to determine candidacy. In conclusion, refraction correction (折射修正) is an essential concept that impacts various aspects of our lives, from simple vision correction to complex scientific applications. Understanding how light behaves as it passes through different mediums allows us to create solutions that enhance our visual experiences and improve our understanding of the world around us. As technology continues to evolve, so too will the methods we use for refraction correction (折射修正), paving the way for even more effective and precise optical solutions in the future.

折射修正是光学科学中的一个重要方面，涉及光在不同介质中传播时的弯曲。当光从一种介质传播到另一种介质时，例如从空气到水，由于这些材料的密度不同，它会改变速度和方向。这种现象被称为折射。然而，在各种应用中，尤其是在光学和视力矫正方面，施加折射修正（refraction correction）变得至关重要，以确保清晰和精确。在日常生活中，许多人依赖眼镜或隐形眼镜来矫正视力。这些光学设备是基于折射原理设计的，需要准确的折射修正（refraction correction）才能有效运作。当一个人有折射误差，例如近视或远视时，他们的眼睛不能正确地折射光。这导致视力模糊，使得在某些距离上清晰看到物体变得困难。为了应对这一问题，验光师会进行全面的眼部检查，以确定折射误差的程度。结果指导选择合适的镜片，以提供必要的折射修正（refraction correction）。例如，凹透镜用于近视患者，而凸透镜则开给远视患者。目标是调整进入光线的焦点，使其正确落在视网膜上，从而实现清晰的视力。此外，折射修正（refraction correction）不仅限于眼镜和隐形眼镜。它还在多个科学和技术领域中发挥着重要作用。例如，在摄影中，镜头必须经过校准以考虑折射效应，以便拍摄图像。如果不进行修正，最终的照片可能会显得失真或模糊。同样，在天文学中，望远镜利用折射修正（refraction correction）来确保对遥远天体的观察是准确的。如果没有适当的调整，观察结果可能会导致对宇宙的错误结论。科技的进步也带来了创新的折射修正（refraction correction）方法。激光眼科手术，如LASIK，已成为传统矫正镜片的流行替代方案。这些程序涉及重塑角膜，以改善光在眼内的折射方式。患者通常会立即体验到效果，许多人在手术后达到20/20的视力。虽然这些手术选项提供了显著的好处，但它们也伴随着风险，并且需要彻底的术前评估以确定适应性。总之，折射修正（refraction correction）是一个影响我们生活各个方面的重要概念，从简单的视力矫正到复杂的科学应用。理解光在不同介质中传播时的行为使我们能够创造出增强视觉体验和改善对周围世界理解的解决方案。随着技术的不断发展，我们用于折射修正（refraction correction）的方法也将不断演进，为未来更有效、更精确的光学解决方案铺平道路。