制造一种好的热电材料的关键是,需要一种电子可以自由流动的晶体结构。
The trick to a good thermoelectric material is a crystal structure in which electrons can flow freely.
一些很小的颗粒都有晶体结构,能够影响光子,光的微粒的流动。
These are tiny particles that have a crystal structure which influences the flow of photons, the particles of light.
“她必须是晶体的,而且是流动的,因为她变身为钻石体的时候也要有动作,”戴克斯特说道。
"She had to be at once crystal and fluid, because she had to move when she was in her diamond form," Dykstra says.
传统晶体管使用一个叫做“栅极”的金属电极,以控制电子在平面硅基片上的沟道中的流动。
Conventional transistors use a metal electrode, called the gate, to control the flow of electrons through a planar channel in the silicon substrate.
基于晶体塑性理论及数理统计理论,建立了流动应力波动幅度与晶粒尺寸和坯料几何尺寸间的关系。
Based on the crystal plasticity theory and mathematical theory of statistics, the relation of flow stress fluctuation quantity to grain dimension as well as billet dimensions was built.
在晶体生长中,流体中的输运过程和流动的不稳定性对生成晶体的结构和质量有重要影响。
The transport processes and flow instabilities in the fluid phase during the growth of crystals have a profound influence on the structure and quality of the crystals.
当科学家将电压加在电极之上时,含有三磷酸腺苷、钾离子和钠离子的溶液便会倾泻而出,覆盖在晶体管装置表面,并引发电极之间电流的流动。
When the scientists applied a voltage across the electrodes and poured a solution containing ATP, potassium ions, and sodium ions onto the device, it caused a current to flow through the electrodes.
非晶体硅材料没有硅晶体那样纯,原子间的空隙也小,因而限制了电流的流动。
This material is not as silicon crystals. It has tiny spaces between the atoms that limit the flow of electrical current.
本文研究了溶液循环流动法生长大截面KDP晶体的工艺条件。
The growth of large KDP crystals is studied by solution circulating method.
目的比较高渗晶-胶混合液、等渗晶体溶液和全血对失血性休克犬的血流动力学和全身氧供状态的影响。
Objective to compare the effects among hypertonic hyperoncotic solution, isotonic crystalloid solution and whole blood on the hemodynamics and oxygen supply in hemorrhagic shock dogs.
岩浆可以是完全液态的,或者是更常见的液体、固态晶体和溶解气体组成的流动混合物。
It may be completely liquid or, more commonly, a fluid mixture of liquid, solid crystals, and dissolved gases.
磁场对于半导体晶体生长过程中的熔体流动模式有着明显的影响,因而可以改善晶体的组分和杂质的分布。
Because it can affect the mode of fluid in the process of growing semiconductors, the magnetic field can improve the distribution of composite and impurities in the crystal.
通过变形、压密、阻挡、涡流等显微构造标志确定流动方位;利用长条状晶体的长轴方向确定流动线理。
The flow orientation were determined by microstructural indicators such as deformation, compaction, obstruction and the whirling of lava flows;
通过变形、压密、阻挡、涡流等显微构造标志确定流动方位;利用长条状晶体的长轴方向确定流动线理。
The flow orientation were determined by microstructural indicators such as deformation, compaction, obstruction and the whirling of lava flows;
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