transmitted beams

简明释义

发射波束

英英释义

例句

1.The laser system relies on accurate alignment to ensure the transmitted beams（传输光束） reach their target.

激光系统依赖于精确的对准，以确保transmitted beams（传输光束）到达目标。

2.In fiber optics, the clarity of the transmitted beams（传输光束） is crucial for high-speed internet.

在光纤通信中，transmitted beams（传输光束）的清晰度对高速互联网至关重要。

3.The performance of the communication system depends on the efficiency of the transmitted beams（传输光束）.

通信系统的性能取决于transmitted beams（传输光束）的效率。

4.Scientists are studying how atmospheric conditions affect the strength of transmitted beams（传输光束）.

科学家正在研究大气条件如何影响transmitted beams（传输光束）的强度。

5.The satellite uses special technology to enhance the quality of the transmitted beams（传输光束）.

这颗卫星使用特殊技术来增强transmitted beams（传输光束）的质量。

作文

In the realm of physics and engineering, the concept of transmitted beams plays a crucial role in understanding how energy and information are conveyed through different mediums. Transmitted beams refer to the waves or rays that pass through a material without being absorbed or reflected. This phenomenon is essential in various applications, including telecommunications, optics, and even medical imaging. Understanding how these beams work can help us harness their potential for innovative technologies.One of the most common examples of transmitted beams is found in the field of optics. When light travels through a lens, certain wavelengths may be transmitted while others are blocked or reflected. This selective transmission allows for the creation of lenses that can focus light in specific ways, which is fundamental in devices like cameras and microscopes. The ability to manipulate transmitted beams of light enables scientists and engineers to design instruments that enhance our vision of the microscopic world.In telecommunications, transmitted beams are vital for the transmission of data over long distances. Fiber optic cables utilize light to transmit information at incredibly high speeds, relying on the principle that light can be transmitted through glass with minimal loss. Here, the efficiency of transmitted beams ensures that data remains intact as it travels from one point to another, allowing for seamless communication in today’s digital age.Moreover, transmitted beams are also significant in medical imaging technologies such as X-rays and ultrasound. In X-ray imaging, beams of radiation are transmitted through the body, where they are absorbed by different tissues to create images of the internal structures. This method relies on the differential absorption of the transmitted beams to produce clear images that can assist in diagnosing various medical conditions. Similarly, ultrasound uses sound waves that are transmitted through the body to create images of organs and tissues, making it an invaluable tool in prenatal care and other medical assessments.The study of transmitted beams is not limited to just light and sound; it extends to other forms of energy as well. For instance, in civil engineering, the analysis of transmitted beams can help understand how forces are distributed through structures. Engineers must consider how beams of force are transmitted through materials when designing buildings and bridges to ensure safety and stability.In conclusion, the concept of transmitted beams is integral to a variety of fields, from optics and telecommunications to medicine and engineering. By studying how these beams interact with different materials, we can develop technologies that improve our lives and expand our understanding of the world around us. As we continue to explore the properties of transmitted beams, we will undoubtedly uncover new possibilities and innovations that can further enhance our capabilities in science and technology.

在物理和工程领域，transmitted beams（传输光束）的概念在理解能量和信息如何通过不同介质传递方面起着至关重要的作用。Transmitted beams指的是通过材料而不被吸收或反射的波或光线。这种现象在电信、光学甚至医学成像等各种应用中都是必不可少的。理解这些光束的工作原理可以帮助我们利用它们的潜力来开发创新技术。Transmitted beams的一个常见例子可以在光学领域找到。当光通过透镜传播时，某些波长可能会被传输，而其他波长则被阻挡或反射。这种选择性传输使得可以制造出能够以特定方式聚焦光线的透镜，这对于相机和显微镜等设备至关重要。操控transmitted beams的能力使科学家和工程师能够设计出增强我们对微观世界观察的仪器。在电信领域，transmitted beams对于长距离数据传输至关重要。光纤电缆利用光以极高的速度传输信息，依赖于光可以在玻璃中以最小损失传输的原理。在这里，transmitted beams的效率确保了数据在从一个点到另一个点的传输过程中保持完整，使得在当今数字时代无缝通信成为可能。此外，transmitted beams在医学成像技术中也具有重要意义，例如X射线和超声波。在X射线成像中，辐射光束被传输穿过身体，在不同组织中被吸收，从而创建内部结构的图像。这种方法依赖于transmitted beams的差异吸收来生成清晰的图像，帮助诊断各种医疗状况。同样，超声波利用穿透身体的声波来创建器官和组织的图像，使其在产前护理和其他医学评估中成为不可或缺的工具。Transmitted beams的研究不仅限于光和声，它还扩展到其他形式的能量。例如，在土木工程中，分析transmitted beams可以帮助理解力量如何在结构中分布。工程师在设计建筑物和桥梁时必须考虑力量光束如何在材料中传输，以确保安全和稳定性。总之，transmitted beams的概念对于光学、电信、医学和工程等多个领域至关重要。通过研究这些光束与不同材料的相互作用，我们可以开发出改善生活并拓展我们对周围世界理解的技术。随着我们继续探索transmitted beams的性质，我们无疑会发现新的可能性和创新，从而进一步增强我们在科学和技术方面的能力。