那么那就是固体的振动热容。
本质上在这种情况下,热容,对一种振动模式不只是。
Basically, in that case, the heat capacity Nk it's not just Nk for one vibrational mode.
本课程检验了固体中的电子以及晶格振动的经典和量子模型,重点强调于弹性性质,电子输运过程和热容的物理模型。
This course examines classical and quantum models of electrons and lattice vibrations in solids, emphasizing physical models for elastic properties, electronic transport, and heat capacity.
本课程考察了固体中的电子以及晶格振动的经典和量子模型,重点考察了弹性性质,电子输运过程和热容的物理模型。
This course examines classical and quantum models of electrons and lattice vibrations in solids, emphasizing physical models for elastic properties, electronic transport, and heat capacity.
应用点阵动力学的方法计算了一维纳米晶体的熵、热容以及振动自由能等,发现纳米晶体的熵比单晶的熵值高,这些结果可以用纳米晶体的特殊结构来解释。
Its thermal properties were calculated by means of lattice dynamics. It has been found that the entropy and specific heat of nanocrystalline are higher than that of single crystal.
应用点阵动力学的方法计算了一维纳米晶体的熵、热容以及振动自由能等,发现纳米晶体的熵比单晶的熵值高,这些结果可以用纳米晶体的特殊结构来解释。
Its thermal properties were calculated by means of lattice dynamics. It has been found that the entropy and specific heat of nanocrystalline are higher than that of single crystal.
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