2) superconducting cell
超导单元
3) superconducting component
超导元件
4) super heavy element
超重元素
1.
With the synthesis of heavy elements approaching the super heavy island,the production cross section becomes smaller and the lifetime of the super heavy element becomes longer,which results in the difficulties for identification of the elements by using conventional alpha decay chain technique.
随着合成的超重元素向超重岛逼近,合成截面越来越小,同时,合成的超重元素的寿命可能相对增长,这对利用α衰变链的传统方法鉴别超重元素是非常不利的。
5) transuranium
[,trænsju'reinjəm]
超铀元素
1.
Some restrictive factors of the limit of transuranium are discussed in this paper on the basis of philoscophical laws of the unity of opposites and the quantitative qualitative change.
以哲学的对立统一和量变质变两大基本规律为由头 ,考虑了超铀元素存在的若干限制因素 ,结论认为 :1。
2.
Some problems are discussed in this paper which is“spale-restriction”,“time-restric- tion”and“cross-section-restriction on the transuranium s limit”.
本文讨论了超铀元素存在的“空间限制”、“时间限制”和“生成截面限制”。
3.
The boundary limit of the periodic system is also one of the transuraniums.
作者认为超铀元素存在的界限(或极限)大体在Z=110-125号元素,而Z=114-120号元素将更有可能。
6) superheavy element
超重元素
1.
The α-decay lifetimes of the newly synthesized superheavy elements are calculated using the α-cluster model and the results are in good agreement with experimental data.
用α 结团模型计算新合成超重元素的半衰期 ,与已知的实验数据进行对比分析 ,发现理论和实验数据能够很好地符合 ,验证了α 结团模型对超重核研究的有效性 。
2.
The status and development of the studies on reaction mechanism for synthesis of superheavy elements has been reviewed.
回顾了超重元素研究的现状和超重元素合成反应机制研究的发展,指出目前超重元素合成研究中存在的困难和对超重余核鉴别的一些设想。
3.
This report introduces and analyzes the progress of the theoretical and experimental studies for the synthesis of superheavy element and nuclide in the world and our country.
本文在介绍和分析国际、国内在超重元素 (新核素 )合成实验研究与理论研究进展情况的基础上对我国今后如何从理论与实验的结合上开展超重元素 (核 )合成研究工作提出一些看法和建议 ,提供讨
补充资料:超导元素(superconductingelement)
超导元素(superconductingelement)
在一定压强和温度下,具有超导电性的化学元素称超导元素,例如元素锡(Sn)在常压(1大气压)时在温度T≤3.72K时呈现超导电性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条