1·One way out of this may be a second curious physical phenomenon—the thermoelectric effect.
解决这个问题的方法之一可能是第二种奇怪的物理现象——热电效应。
2·One way out of this may be a second curious physical phenomenon, the thermoelectric effect.
解决这个问题的方法之一可能是第二种奇特的物理现象,热电效应。
3·The thermoelectric effect is the direct conversion of temperature differences to electric voltage and vice-versa.
热电效应能将温差直接转换成电压,反之亦然。
4·The origin of thermoelectric effects and the cause of no thermoelectric effect in type -i superconductors were discussed.
讨论了温差电效应的起源和I类超导体不发生温差电效应的原因。
5·They suggest that a phenomenon called the thermoelectric effect might be used instead—and they have built a prototype to show that the idea is practical.
他们提出可以利用一种名为热电效应的现象——而且还建立了一个模型来证明这个想法的可行性。
6·Double with thermoelectric and piezoelectric effect, and the formation of the human body magnetic resonance resonance.
具有热电和压电的双重效应,与人体磁场形成共振共鸣。
7·Secondly, phonon transport in thermoelectric materials will be discussed, where strong interface scattering and quantum confinement effect have been observed.
其次,对热电材料的声子输运问题进行研究,观察到了强的界面散射和量子限制效应。
8·Both VA and VB are affected by the drift in the thermoelectric EMF, but the effect on VA and VB is equal and opposite.
VA和VB都受到热电动势漂移的影响,但是其对于VA和VB的影响是相等、相反的。
9·In chapter four, the thermoelectric properties, mainly the Seebeck effect and Peltier effect of microchannel structures are tested, and test results are analyzed and discussed.
第四章对硅微通道板结构的热电特性,主要是塞贝克效应和珀尔帖效应进行测试,并对测试结果进行分析讨论。