1) Stationary center coordinates squeezed state
定态圆心压缩态
2) Stationary center coordinates coherent state
定态圆心相干态
3) squeezing Schrodinger cat state
压缩薛定谔猫态
1.
The studies showed: Considered the influence of the infirmness coupling effect in a mesoscopic capacitor, the mesoscopic LC circuit would evolve into squeezing Schrodinger cat state from Schrodinger cat state.
研究结果表明:考虑介观电 容器弱耦合效应的影响,介观LC电路将由初始的薛定谔猫态演化到压缩薛定谔猫态。
4) dynamic compression
动态压缩
1.
Atomistic simulation of mechanical properties of martensitic transformation under dynamic compression
动态压缩下马氏体相变力学性质的微观研究
2.
The variety of interior temperature was obtained by T shape thermocouple in dynamic compression of polycarbonate and the variety of exterior temperature and the surface temperature field were achieved by infraed thermo-image instrument in quasistatic tensile test of polycarbonate.
描述了红外辐射技术和热电偶用于测量聚合物材料变形时表面和内部温度的方法,在动态压缩中,用T型微丝热电偶测得了聚碳酸酯的内部温度变化;在准静态拉伸试验中,用红外热像仪获得了聚碳酸酯拉伸过程中的表面温度变化及表面温度场。
3.
The dynamic compression testing of Mg65Cu20Ag5Gd10 bulk amorphous alloy was done by split Hopkinson pressure bar(SHPB) at the scope of strain rate of 102~103?s-1.
利用霍普金森压杆(SHPB)装置对Mg65Cu20Ag5Gd10块体非晶合金材料进行了动态压缩试验,应变率范围102~103s-1,采用扫描电子显微镜研究了其断口形貌特征。
5) static compression
静态压缩
1.
Study of the performance of static compression of polyethylene foamed plastics;
聚乙烯泡沫塑料的静态压缩性能研究
2.
Quasi-static compression behaviors of cylindrical tubes filled with open-cell aluminum foam
开孔泡沫铝填充圆管的准静态压缩行为
3.
345g/cm 3) are obtained by quasi static compression tests and dynamic impact tests with a strain rate ab.
345g/cm3的RPUF材料作了静态压缩及动态冲击压缩试验(应变率为103s-1)。
6) squeezing state
压缩态
1.
Obtaining and detecting of optical soliton amplitde squeezing state;
光孤子振幅压缩态的产生及检测
2.
The squeezing states of magnons in a ferromagnet were studied,which originate from the nonlinear interaction of magnons.
研究了铁磁体中磁振子的压缩态。
3.
The basic theory of squeezing state is depicted,and the experiments of soliton pulse squeezing state and numerical model are reviewed.
文中描述了压缩态的基本理论,综述了产生光孤子脉冲压缩态的实验和数值模型,并在前人的模型基础上,计算了使用非对称Sagnac干涉仪产生孤子压缩,通过直接测量后得到的一些模拟结果。
补充资料:单线态-单线态能量转移
分子式:
CAS号:
性质:处于电子激发单线态的能量给体,通过激发能的转移使能量受体处于激发单线态的过程。
CAS号:
性质:处于电子激发单线态的能量给体,通过激发能的转移使能量受体处于激发单线态的过程。
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