这是一个信息时代,是半导体物理,固体物理所支撑起来的,而它们是量子力学所决定的。
This information age, of course, came about because of semiconductors and solid-state physics, which were enabled by quantum mechanics.
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.
文中介绍了气体电离探测器,固体、气体闪烁计数器,半导体探测器以及量子微量热器等方面的国外近年进展简况。
The recent progress in gas ionization detectors, solid and gas scintillator counters semiconductor detectors and quantum microcalorimeter abroad are described in this paper.
半导体量子点是固体发光材料中的一个新兴领域,对它的研究涉及多学科的交叉。
Semiconductor quantum dots is a new field of luminescent solid material. The research on it refers to the combination of many subjects.
我们不但实验观测到宏观量子系统中的量子跳跃,还可以利用量子跳跃现象来研究固体中普遍存在的两能级系统及其引起的超导量子比特中的退相干。
In addition, quantum jumps can serve as a useful tool to investigate the properties of the two-level systems that are ubiquitous in solid-state systems.
我们不但实验观测到宏观量子系统中的量子跳跃,还可以利用量子跳跃现象来研究固体中普遍存在的两能级系统及其引起的超导量子比特中的退相干。
In addition, quantum jumps can serve as a useful tool to investigate the properties of the two-level systems that are ubiquitous in solid-state systems.
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