transmitter telescope

简明释义

激光发射管

英英释义

例句

1.Engineers are developing a larger transmitter telescope to improve signal strength.

工程师们正在开发一个更大的发射望远镜以提高信号强度。

2.The transmitter telescope allows astronomers to gather data from black holes.

这个发射望远镜使天文学家能够从黑洞收集数据。

3.With the new transmitter telescope, we can communicate with satellites more effectively.

借助新的发射望远镜，我们可以更有效地与卫星进行通信。

4.The transmitter telescope is crucial for deep space exploration missions.

对于深空探索任务，发射望远镜至关重要。

5.The scientists used a transmitter telescope to send signals to distant galaxies.

科学家们使用发射望远镜向遥远的星系发送信号。

作文

In the realm of astronomy and telecommunications, the term transmitter telescope refers to a specialized device that combines the functions of a telescope with those of a transmitter. This innovative technology allows astronomers to not only observe distant celestial objects but also to send data back to Earth or to other locations in space. The significance of the transmitter telescope lies in its ability to enhance our understanding of the universe while facilitating communication across vast distances. Traditionally, telescopes have been used primarily for observation. They gather light from celestial bodies, allowing astronomers to study their properties, movements, and compositions. However, as our exploration of space has advanced, the need for transmitting information has become increasingly important. This is where the transmitter telescope comes into play. By integrating transmission capabilities, these telescopes can relay valuable data collected during observations, such as images, spectra, and other scientific measurements.One of the most notable examples of a transmitter telescope is the Very Large Array (VLA) in New Mexico, which consists of multiple radio antennas that work together to observe astronomical phenomena. The VLA not only captures radio waves from space but also transmits the processed data to research facilities, enabling scientists to analyze and interpret the information in real-time. This dual functionality enhances the efficiency of astronomical research and contributes to our growing knowledge of the cosmos.Moreover, the development of transmitter telescopes has implications beyond traditional astronomy. For instance, these devices can be instrumental in studying exoplanets, which are planets outside our solar system. By observing the light from stars and detecting changes caused by orbiting planets, astronomers can gather crucial data about their atmospheres and potential habitability. The ability to transmit this data back to Earth allows for immediate analysis, fostering collaboration among scientists worldwide.The integration of communication technology within telescopes also opens doors for future space missions. As humanity aims to explore deeper into space, transmitter telescopes could play a vital role in transmitting signals from spacecraft exploring distant planets or moons. This capability would ensure that scientists receive continuous updates about the findings of these missions, enhancing our understanding of the solar system and beyond.In conclusion, the concept of a transmitter telescope represents a significant advancement in both astronomy and telecommunications. By merging the observational prowess of traditional telescopes with transmission technology, these devices facilitate a more comprehensive approach to studying the universe. As we continue to push the boundaries of exploration, the importance of transmitter telescopes will undoubtedly grow, paving the way for groundbreaking discoveries and a deeper understanding of the cosmos. The future of astronomy is not just about looking up at the stars; it’s also about communicating what we find back to our home planet, ensuring that knowledge is shared and expanded upon by generations to come.

在天文学和电信领域，术语发射望远镜指的是一种将望远镜的功能与发射器的功能相结合的专业设备。这项创新技术使天文学家不仅能够观察遥远的天体，还能够将数据发送回地球或其他太空位置。发射望远镜的重要性在于它能够增强我们对宇宙的理解，同时促进跨越广阔距离的通信。传统上，望远镜主要用于观察。它们收集来自天体的光线，使天文学家能够研究其性质、运动和成分。然而，随着我们探索太空的进步，传输信息的需求变得越来越重要。这就是发射望远镜发挥作用的地方。通过集成传输能力，这些望远镜可以传送在观察过程中收集到的宝贵数据，例如图像、光谱以及其他科学测量。一个最显著的发射望远镜例子是位于新墨西哥州的非常大阵列（VLA），该阵列由多个无线电天线组成，共同观察天文现象。VLA不仅捕捉来自太空的无线电波，还将处理后的数据传输到研究设施，使科学家能够实时分析和解释这些信息。这种双重功能提高了天文研究的效率，并有助于我们对宇宙的不断了解。此外，发射望远镜的发展不仅限于传统天文学。例如，这些设备在研究系外行星方面可能发挥重要作用，系外行星是指位于我们太阳系之外的行星。通过观察恒星的光线并检测因环绕行星引起的变化，天文学家可以收集关于它们的大气和潜在宜居性的关键数据。将这些数据传输回地球的能力使得即时分析成为可能，促进了全球科学家的合作。将通信技术与望远镜集成也为未来的太空任务打开了大门。随着人类目标是深入太空探索，发射望远镜可能在从探索遥远行星或卫星的航天器传输信号中发挥至关重要的作用。这种能力将确保科学家持续收到有关这些任务发现的更新，从而增强我们对太阳系及更远地区的理解。总之，发射望远镜的概念代表了天文学和电信领域的重要进展。通过将传统望远镜的观测能力与传输技术相结合，这些设备促进了对宇宙的更全面的研究方法。随着我们继续推动探索的边界，发射望远镜的重要性无疑会增长，为突破性的发现和对宇宙的更深理解铺平道路。天文学的未来不仅仅是仰望星空；还在于将我们所发现的事物传达回我们的家园星球，确保知识被分享并在后代中不断扩展。