1) compression excitation energy
压缩激发能
1.
Our work began on the assumption that the temperature plateau of ALADIN calaric curve was resulted from the compression excitation energy.
并指出ALADIN量热曲线中的温度平台是由压缩激发能所致 。
2) Excited squeezed vacuum state
激发压缩真空态
1.
A quantization scheme for an LC circuit a source was proposed and the fluctuations of the charge and the magnetic flux of the circuit in excited squeezed vacuum state are studied by using the complete quantum theory.
通过量子化LC电路,运用全量子理论研究了在激发压缩真空态下介观LC电路中电荷、磁通量的量子涨落。
3) two-mode excited squeezed vacuum state
双模激发压缩真空态
1.
Using the Wigner operator in the entangled-state representation we construct the Wigner functions of the two-mode excited squeezed vacuum states(TESVS).
利用纠缠态表象下的维格纳(Wigner)算符,构造了双模激发压缩真空态的维格纳函数,并根据该函数在相空间ρ-γ中随参量m,n和r的变化关系,讨论了双模激发压缩真空态的量子干涉特性和压缩效应。
4) excited state of the squeezed vacuum state
压缩真空态的激发态
5) Excited two mode squeezed vacuum state
激发双模压缩真空态
6) shock wave compression
激波压缩
补充资料:晶体中的元激发(见固体中的元激发)
晶体中的元激发(见固体中的元激发)
elementary excitation in crystal
晶体中的元激发eleme讯ary excitation Incrvstal见固体中的元激发。
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