antiballistic

简明释义

英[ˌæntɪbəˈlɪstɪk]美[ˌæntɪbəˈlɪstɪk]

adj. 反导弹的；反弹道的

英英释义

单词用法

同义词

反义词

例句

1.White House spokesperson Josh Earnest pointed out that "there are radar facilities and antiballistic missile facilities that have been installed in places like Japan and Guam and in Alaska."

白宫发言人乔希欧内斯(JoshEarnest)指出，“现在，雷达设备和反弹道导弹设施已在多地部署，如日本、关岛和阿拉斯加。”

2.White House spokesperson Josh Earnest pointed out that "there are radar facilities and antiballistic missile facilities that have been installed in places like Japan and Guam and in Alaska."

白宫发言人乔希欧内斯(JoshEarnest)指出，“现在，雷达设备和反弹道导弹设施已在多地部署，如日本、关岛和阿拉斯加。”

3.International treaties often include provisions for antiballistic missile systems.

国际条约通常包括关于反弹道导弹系统的条款。

4.Many countries are investing in antiballistic technology to enhance their national security.

许多国家正在投资于反弹道技术，以增强国家安全。

5.The effectiveness of the new antiballistic missile defense system was tested during recent military exercises.

新的反弹道导弹防御系统的有效性在最近的军事演习中得到了测试。

6.The research team is focused on improving antiballistic capabilities to counter emerging threats.

研究团队专注于提高反弹道能力，以应对新出现的威胁。

7.The military has developed advanced antiballistic systems to protect cities from missile attacks.

军方已经开发出先进的反弹道系统，以保护城市免受导弹袭击。

作文

In the modern world, the threat of missile attacks has become a significant concern for many nations. As a result, countries have invested heavily in developing advanced defense systems to protect their citizens and infrastructure. One of the most crucial components of these defense systems is the concept of antiballistic (反弹道的) missile technology. This technology is designed to intercept and destroy incoming ballistic missiles before they can reach their intended targets. The importance of antiballistic (反弹道的) systems cannot be overstated, especially in regions where geopolitical tensions are high.The development of antiballistic (反弹道的) missile systems began during the Cold War, when the threat of nuclear war loomed large. Countries like the United States and the Soviet Union raced to create technologies that could defend against each other's missile capabilities. This led to the creation of various antiballistic (反弹道的) systems, such as the U.S. Safeguard Program and the Soviet A-35 system. Over the years, these systems have evolved significantly, incorporating advanced radar, tracking, and interception technologies to improve their effectiveness.One of the most notable examples of antiballistic (反弹道的) missile defense is the Ground-based Midcourse Defense (GMD) system in the United States. This system is designed to detect and intercept intercontinental ballistic missiles (ICBMs) during their midcourse phase of flight. By utilizing a network of ground-based interceptors and advanced sensors, GMD aims to provide a robust defense against potential missile threats from rogue states.Another significant advancement in antiballistic (反弹道的) technology is the Aegis Ballistic Missile Defense System, which is deployed on Navy ships. This system uses powerful radar and missile interceptors to track and engage short- to intermediate-range ballistic missiles. The flexibility of the Aegis system allows it to be deployed in various regions, providing a mobile defense capability that can respond quickly to emerging threats.However, the development and deployment of antiballistic (反弹道的) missile systems have not been without controversy. Critics argue that these systems can lead to an arms race, as countries may feel compelled to develop their own offensive and defensive capabilities in response. Additionally, there are concerns about the effectiveness of antiballistic (反弹道的) systems, particularly against sophisticated missile technologies that employ decoys or maneuvering capabilities to evade interception.Despite these challenges, the pursuit of antiballistic (反弹道的) missile technology remains a priority for many nations. The ongoing advancements in artificial intelligence, machine learning, and sensor technologies hold the promise of enhancing the effectiveness of these defense systems. As the global security landscape continues to evolve, the role of antiballistic (反弹道的) missile systems will likely remain a critical component of national defense strategies.In conclusion, the term antiballistic (反弹道的) refers to the technology and systems designed to counter ballistic missile threats. Its significance in contemporary defense strategies cannot be understated, as nations strive to protect themselves from the ever-present risks posed by missile attacks. With ongoing advancements in technology and a complex geopolitical landscape, the future of antiballistic (反弹道的) systems will continue to be an area of intense focus and development.

在现代世界，导弹袭击的威胁已成为许多国家的重要关注点。因此，各国在开发先进的防御系统方面投入了大量资金，以保护其公民和基础设施。这些防御系统中最关键的组成部分之一就是反弹道的导弹技术。该技术旨在拦截并摧毁来袭的弹道导弹，以防止它们达到预定目标。反弹道的系统的重要性不容小觑，特别是在地缘政治紧张局势高发的地区。反弹道的导弹系统的发展始于冷战时期，当时核战争的威胁笼罩着世界。美国和苏联等国竞相创造能够防御对方导弹能力的技术。这导致了各种反弹道的系统的出现，例如美国的保障计划和苏联的A-35系统。多年来，这些系统经历了显著的演变，结合了先进的雷达、跟踪和拦截技术，以提高其有效性。美国的地面中段防御（GMD）系统是反弹道的导弹防御的一个显著例子。该系统旨在在弹道导弹的中段飞行阶段探测并拦截洲际弹道导弹（ICBM）。通过利用一系列地面拦截器和先进传感器，GMD旨在提供对来自流氓国家潜在导弹威胁的强大防御。另一个重要的反弹道的技术进展是部署在海军舰艇上的Aegis弹道导弹防御系统。该系统利用强大的雷达和导弹拦截器来跟踪和打击短程至中程的弹道导弹。Aegis系统的灵活性使其能够在不同地区部署，提供快速响应新兴威胁的机动防御能力。然而，反弹道的导弹系统的发展和部署并非没有争议。批评者认为，这些系统可能导致军备竞赛，因为各国可能感到有必要针对互相发展攻防能力。此外，人们对反弹道的系统的有效性也表示担忧，特别是针对采用诱饵或机动能力以避开拦截的复杂导弹技术。尽管面临这些挑战，许多国家仍将开发反弹道的导弹技术作为优先事项。人工智能、机器学习和传感器技术的持续进步有望增强这些防御系统的有效性。随着全球安全形势的不断演变，反弹道的导弹系统在国家防御战略中的作用可能仍将是一个关键组成部分。总之，反弹道的一词指的是旨在应对弹道导弹威胁的技术和系统。在当代防御战略中，其重要性不容小觑，因为各国努力保护自己免受导弹袭击带来的持续风险。随着技术的不断进步和复杂的地缘政治格局，反弹道的系统的未来将继续成为重点关注和发展的领域。