superheavy

简明释义

英[ˌsuːpərˈhɛvi]美[ˌsuːpərˈhɛvi]

adj. 超重的；超重元素的

n. [交] 超重；超重元素

英英释义

单词用法

同义词

反义词

例句

1.But many researchers think it is possible that even heavier elements may occupy an “island of stability” in which superheavy atoms stick around for a while.

但是，许多研究人员认为甚至更重的元素也可能占据一个可以让超重原子坚持了一段时间“稳定岛”。

2.The four new elements, all of which are synthetic, were discovered by slamming lighter -nuclei into each other and tracking the following decay of the radioactive superheavy elements.

这四种新元素都是人造的，是由火花与原子核相互撞击并且循着放射性超重元素衰变的轨迹而发现的。

3.In this paper, the possibility of producing superheavy fragments through composite system breaking up in massive nuclear reactions is investigated.

讨论了通过重核碰撞形成的复合体系破裂产生超重核的问题。

4.The safety the pole setting entirety is stabilized to superheavy form board of project plays arrive at decisive role.

竿的安全设置全部是稳定超重形式发挥董事会的项目达成决定性的作用。

5.The present invention is distilling and layered fractioning technology to obtain no-deuterium water with high energy, high purity, no heavy water and no superheavy water.

本发明是由蒸馏和分层分馏技术获得高能量、高纯度、不含重水和超重水的无氘水。

6.A high efficient complex viscosity reduction system XGD was developed for the crude oil in superheavy oil reservoir with high resin and asphaltene content and complicated layer structure.

针对特超稠油油藏原油胶质、沥青质含量高，层状结构复杂的特点，研制了高效复合降粘体系XGD并对其性能进行了评价。

7.Some aspects of quantum chaos in a finite system had been studied based on the analysis of statistical behaviors of quantum spectra in heavy and superheavy nuclei.

通过观察和分析重核和超重核中量子谱的统计性质，研究有限物理体系中量子混沌的一些问题。

8.The theoretical models for investigating the fusion mechanism of heavy nucleus collisions and calculating the formation cross sections of superheavy nuclei have been introduced.

介绍并讨论了研究超重核合成的主要理论模型以及近年来在研究重核熔合机制和超重核合成理论模型方面的进展。

9.The construction industry is looking into superheavy 超重型 materials for more durable buildings.

建筑行业正在研究使用超重型 superheavy 材料来建造更耐用的建筑。

10.The latest gaming console is equipped with superheavy 超重型 graphics processing capabilities.

最新的游戏机配备了超重型 superheavy 图形处理能力。

11.The superheavy 超重型 machinery at the construction site requires specialized operators.

施工现场的超重型 superheavy 机械需要专业操作员。

12.The new rocket design features a superheavy 超重型 booster to carry larger payloads into space.

新的火箭设计采用了一个超重型 superheavy 助推器，以便将更大的有效载荷送入太空。

13.In physics, researchers are studying superheavy 超重型 elements that exist only for fractions of a second.

在物理学中，研究人员正在研究仅存在几分之一秒的超重型 superheavy 元素。

作文

In the world of physics, the term superheavy refers to elements that have a significantly high atomic number, typically greater than 104. These elements are not found in nature and must be synthesized in laboratories. The study of superheavy elements is fascinating because they push the boundaries of our understanding of atomic structure and stability. Scientists believe that these elements may exhibit unique properties due to their heavy nuclei, which could lead to new discoveries in chemistry and materials science.One of the most intriguing aspects of superheavy elements is their potential for stability. While most heavy elements are unstable and decay quickly, some superheavy elements may possess a 'island of stability' where they can exist longer than expected. This concept has captivated researchers who are eager to explore the possibility of creating new, stable isotopes that could have practical applications.The synthesis of superheavy elements involves complex and costly experiments. Scientists use particle accelerators to collide lighter nuclei at high speeds, hoping to create a new element. For instance, element 118, known as oganesson, was first synthesized in 2002 by a team of Russian and American scientists. The discovery of superheavy elements like oganesson not only enriches the periodic table but also enhances our understanding of fundamental forces in nature.Moreover, the research on superheavy elements has implications beyond pure science. The insights gained from studying these exotic atoms can influence various fields, including nuclear physics, quantum mechanics, and even medicine. For example, the unique properties of certain superheavy elements might lead to the development of new materials with advanced functionalities, such as improved superconductors or more effective radiation shielding.Despite the challenges associated with researching superheavy elements, the scientific community remains committed to this endeavor. Each new discovery adds a piece to the puzzle of how matter behaves under extreme conditions. As we continue to explore the realm of superheavy elements, we may uncover secrets about the universe that were previously thought to be unattainable.In conclusion, the study of superheavy elements is an exciting frontier in modern science. It challenges our understanding of atomic behavior and opens up possibilities for new technologies. As researchers delve deeper into this field, the potential applications and theoretical implications of superheavy elements will likely expand, paving the way for innovations that could change our world. The journey into the realm of superheavy elements is just beginning, and it promises to be a thrilling adventure for scientists and enthusiasts alike.

在物理学的世界中，术语superheavy指的是原子序数显著高于104的元素。这些元素在自然界中不存在，必须在实验室中合成。对superheavy元素的研究令人着迷，因为它们推动了我们对原子结构和稳定性理解的边界。科学家们相信，这些元素由于其重核可能表现出独特的性质，这可能导致化学和材料科学的新发现。superheavy元素最引人入胜的方面之一是它们的稳定性潜力。虽然大多数重元素是不稳定的并快速衰变，但一些superheavy元素可能具有一个“稳定岛”，使它们能够比预期存在更长时间。这个概念吸引了研究人员，他们渴望探索创造新的、稳定的同位素的可能性，这些同位素可能具有实际应用。superheavy元素的合成涉及复杂且成本高昂的实验。科学家们使用粒子加速器以高速碰撞较轻的原子核，希望创造出一种新元素。例如，第118号元素，称为oganesson，是由一组俄罗斯和美国科学家于2002年首次合成的。像oganesson这样的superheavy元素的发现不仅丰富了元素周期表，还增强了我们对自然基本力的理解。此外，关于superheavy元素的研究不仅限于纯科学。研究这些奇异原子的见解可以影响多个领域，包括核物理、量子力学，甚至医学。例如，某些superheavy元素的独特性质可能导致新材料的开发，具有先进的功能，例如改进的超导体或更有效的辐射屏蔽。尽管与研究superheavy元素相关的挑战，科学界仍然致力于这一事业。每一个新发现都为我们如何在极端条件下行为的物质拼图增添了一部分。随着我们继续探索superheavy元素的领域，我们可能会揭示关于宇宙的秘密，这些秘密以前被认为是无法获得的。总之，superheavy元素的研究是现代科学中一个令人兴奋的前沿。它挑战了我们对原子行为的理解，并打开了新技术的可能性。随着研究人员深入这一领域，superheavy元素的潜在应用和理论意义可能会扩展，为可能改变我们世界的创新铺平道路。进入superheavy元素领域的旅程才刚刚开始，它承诺将为科学家和爱好者带来激动人心的冒险。