1) The Triaxial Deformed Parameterγ
三轴形变参量γ
2) triaxial deformation
三轴形变
1.
It is noted that before and after theband-crossing the moment of inertia of the core is a smooth function of the total angular mo- mentum I and can be described by the ah formula; The triaxial deformation before and afterthe band-crossing determined from the calculations is apprec.
研究表明,~(161,163,165,167)Lu负宇称Yrast态是三轴形变的;ab公式正确地描述了带交前后核心的转动惯量随角动量I的变化。
3) triaxial potential
三轴形变势
1.
The energy eigen-values and eigen-functions,for a single particle located in single shell of harmonic oscillator and moving in triaxial potential,are calculated.
计算了单核子在三轴形变势中、处于单个谐振子壳层空间的能量本征值和本征态。
4) triaxial superdeformation
三轴超形变
1.
A two-dimensional Total Routhian Surface(TRS) calculation is carried out in order to ascertain if there is triaxial superdeformation in 175Hf.
通过采用TRS方法对实验上新发现的175Hf原子核的两条高自旋转动带进行了研究,以证明是否具有三轴超形变,并且为了使结果能够更准确可靠,选取了最靠近费米面的5个准粒子的组态进行了计算,但是在这个组态上最后得出的总位能面上并没有发现能表明三轴超形变的明显的第二极小点的存在。
2.
A Total Routhian Surface(TRS) calculation are performed for studying triaxial superdeformation in the 168Hf nuclei.
采用TRS方法研究了168Hf核的三轴超形变核态。
3.
In this paper the total routhian surface in 157 Tm nuclei is calculated according to TRS theory and triaxial superdeformation of this nuclei is predicted.
根据TRS理论计算了157Tm核的位能面 ,并预言了其三轴超形变的存在 。
5) triaxial superdeformed
三轴超形变
1.
One of these four bands is identified as triaxial superdeformed band, which is consistent with the experimental assignment.
采用TRS方法对16 8Lu新发现的 4条转动带进行了理论计算 ,证实了在实验上观测到的一条三轴超形变带 ,并得到其形变参数值 。
2.
The triaxial superdeformed band in nucleus 164Lu are identified by three dimensional self-consistent TRS calculation.
利用TRS方法对双奇核16 4Lu的位能面进行了计算 ,确认了16 4Lu核的一条三轴超形变带 ,结果与实验较好地符合 ,同时指出了三轴超形变带的一个具体的组
6) deformation parameter η
形变参量η
补充资料:γ-二乙烯三氨基丙基三乙氧基硅烷
B-201硅烷偶联剂相应的国外牌号A-5162,化学名称为γ-二乙烯三氨基丙基三乙氧基硅烷,结构式为H2NC2H4NHC2H4NH(CH2)3Si(OC2H5)3。淡黄色粘性液体,有胺味。相对密度(20 ℃/4℃)0.9805,沸点164~200℃(2.7kPa).溶于水。
适用于环氧树脂、酚醛树脂、聚氨酯、聚碳酸酯等胶粘剂。贮存于阴凉、通风、干燥的库房内,防潮。
适用于环氧树脂、酚醛树脂、聚氨酯、聚碳酸酯等胶粘剂。贮存于阴凉、通风、干燥的库房内,防潮。
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