thermonuclear device

简明释义

热核反应装置

英英释义

例句

1.A thermonuclear device 热核装置 is often referred to as a hydrogen bomb due to its reliance on fusion.

thermonuclear device 热核装置通常被称为氢弹，因为它依赖于聚变。

2.Countries around the world are concerned about the proliferation of thermonuclear devices 热核装置 and their potential use.

世界各国对thermonuclear devices 热核装置的扩散及其潜在用途感到担忧。

3.The development of the first thermonuclear device 热核装置 marked a significant milestone in nuclear physics.

第一个thermonuclear device 热核装置的开发标志着核物理学的重要里程碑。

4.In military strategy, the deployment of a thermonuclear device 热核装置 can serve as a deterrent against aggression.

在军事战略中，部署thermonuclear device 热核装置可以作为对侵略的威慑。

5.The scientists conducted experiments to better understand the reactions within a thermonuclear device 热核装置.

科学家们进行了实验，以更好地理解thermonuclear device 热核装置内部的反应。

作文

The term thermonuclear device refers to a type of nuclear weapon that derives its explosive energy from the fusion of atomic nuclei. This process, known as thermonuclear fusion, occurs at extremely high temperatures and pressures, similar to those found in the core of stars. The development of thermonuclear devices marked a significant advancement in military technology during the Cold War era, leading to an arms race between superpowers. Unlike fission bombs, which rely on splitting heavy atomic nuclei, thermonuclear devices utilize the fusion of light elements such as hydrogen isotopes. This results in a much more powerful explosion, capable of causing widespread destruction.The first successful test of a thermonuclear device was conducted by the United States in 1952, known as the "Ivy Mike" test. This event demonstrated the feasibility of harnessing fusion for destructive purposes and set off a series of tests by other nations, including the Soviet Union, which successfully detonated its own thermonuclear device in 1955. The sheer power of these weapons raised concerns about global security and the potential for catastrophic consequences in the event of nuclear war.One of the most significant aspects of thermonuclear devices is their ability to produce a blast that can be hundreds or even thousands of times more powerful than conventional nuclear weapons. The destructive force of a thermonuclear device is not only due to the initial explosion but also to the subsequent fireball and shockwave that can obliterate anything within a large radius. This has led to discussions regarding the ethics and morality of possessing such weapons, as well as debates on disarmament and non-proliferation.In addition to their military implications, thermonuclear devices have also spurred scientific research into nuclear fusion as a potential source of energy. Scientists have been exploring the possibility of using controlled fusion reactions to generate electricity, as this process could provide a virtually limitless and clean energy source. However, achieving the necessary conditions for sustained fusion reactions has proven to be a significant challenge, and practical applications remain in the experimental stage.The existence of thermonuclear devices has led to various international treaties aimed at controlling the proliferation of nuclear weapons. The Treaty on the Non-Proliferation of Nuclear Weapons (NPT) is one such agreement that seeks to prevent the spread of nuclear weapons and promote peaceful uses of nuclear energy. Countries that possess thermonuclear devices are often under scrutiny from the international community, and efforts continue to encourage disarmament and reduce stockpiles of nuclear arsenals.In conclusion, the term thermonuclear device encapsulates a complex intersection of science, military strategy, and international relations. Understanding its implications is crucial in today's world, where the threat of nuclear conflict remains a pressing concern. As we advance in scientific knowledge, it is essential to approach the topic of thermonuclear devices with a sense of responsibility and a commitment to fostering peace and security globally.

术语热核装置指的是一种核武器，其爆炸能量源自原子核的聚变。这一过程称为热核聚变，发生在极高的温度和压力下，类似于恒星核心的条件。热核装置的发展标志着冷战时期军事技术的重大进步，导致超级大国之间的军备竞赛。与依赖裂变重原子核的裂变弹不同，热核装置利用轻元素如氢同位素的聚变。这导致了更强大的爆炸，能够造成广泛的破坏。美国在1952年成功进行的第一次热核装置试验被称为“Ivy Mike”试验。这一事件证明了利用聚变进行毁灭性目的的可行性，并引发了其他国家的一系列试验，包括苏联，它在1955年成功引爆了自己的热核装置。这些武器的巨大威力引发了人们对全球安全的担忧，以及在核战争中可能造成的灾难性后果。热核装置的一个重要方面是它们能够产生比常规核武器强大数百倍甚至数千倍的爆炸。热核装置的破坏力不仅来自初始爆炸，还来自随后的火球和冲击波，这些可以摧毁大半径内的任何物体。这引发了关于拥有此类武器的伦理和道德问题的讨论，以及关于裁军和防扩散的辩论。除了军事影响外，热核装置还激发了科学界对核聚变作为潜在能源的研究。科学家们一直在探索利用受控聚变反应发电的可能性，因为这一过程可以提供几乎无限且清洁的能源。然而，实现持续聚变反应所需的条件被证明是一个重大挑战，实际应用仍处于实验阶段。热核装置的存在导致了各种国际条约，旨在控制核武器的扩散。《核不扩散条约》（NPT）就是这样一项协议，旨在防止核武器的扩散并促进核能的和平利用。拥有热核装置的国家通常受到国际社会的审查，努力继续鼓励裁军并减少核库存。总之，术语热核装置概括了科学、军事战略和国际关系的复杂交集。理解其影响在当今世界至关重要，在这里，核冲突的威胁仍然是一个紧迫的问题。随着我们科学知识的进步，必须以责任感和致力于促进全球和平与安全的态度来处理热核装置这一话题。