beam path

简明释义

束路径

英英释义

例句

1.The beam path in this optical system must be perfectly aligned.

这个光学系统中的光束路径必须完美对齐。

2.To improve performance, we optimized the beam path in our design.

为了提高性能，我们在设计中优化了光束路径。

3.Interference in the beam path can lead to distorted images.

光束路径中的干扰可能导致图像失真。

4.We need to adjust the beam path to avoid any obstructions.

我们需要调整光束路径以避免任何障碍物。

5.The laser's beam path is crucial for ensuring accurate targeting.

激光的光束路径对于确保准确瞄准至关重要。

作文

In the realm of physics and engineering, the concept of a beam path (光束路径) is fundamental to understanding how light and other forms of energy travel through different mediums. The beam path refers to the trajectory that a beam of light or radiation follows as it moves from one point to another. This concept is particularly important in fields such as optics, telecommunications, and laser technology, where precise control over the direction and behavior of beams is essential for achieving desired outcomes.To illustrate the significance of the beam path (光束路径), let us consider the example of a laser cutting machine. In this device, a focused beam of light is directed along a predetermined beam path to cut through materials with high precision. The effectiveness of the cutting process relies heavily on the accuracy of the beam path. Any deviation from the intended path can result in imprecise cuts or even damage to the material being processed.Another application of the beam path (光束路径) can be found in optical communication systems. In fiber optic cables, light signals are transmitted over long distances using a specific beam path within the fiber. The design of the fiber ensures that the light remains within the core by total internal reflection, allowing for efficient data transmission. Understanding the beam path is crucial for engineers who design these systems, as it impacts factors such as signal strength and quality.Moreover, the concept of the beam path (光束路径) extends beyond just light. It can also apply to other forms of energy, such as sound waves or electromagnetic radiation. For instance, in acoustics, the beam path may refer to the route that sound waves take as they travel through different environments, affecting how sound is perceived in various locations.The study of beam paths (光束路径) also involves understanding how different materials interact with beams of energy. When light passes through a medium, such as glass or water, its speed and direction can change due to refraction. This phenomenon can alter the beam path significantly, leading to practical applications in designing lenses and other optical devices. Engineers and scientists must carefully calculate the angles of incidence and refraction to ensure that the beam path behaves as expected.In conclusion, the beam path (光束路径) is a crucial concept in various scientific and engineering disciplines. Whether in the context of laser technology, fiber optics, or acoustics, understanding the trajectory of beams is essential for achieving precision and efficiency. As technology continues to advance, the importance of mastering the principles surrounding beam paths will only grow, paving the way for innovations that rely on the manipulation of light and energy.