×

辐射热仪 meaning in Chinese

radiation heating a aratus
radiation heating apparatus

Examples

  1. As one of the most important applications , cmr bolometer is fabricated using the lacamno3 films , which has a metal - insulator transition temperature at 300k . the archetypal bolometer is fabricated after the film is photolithographed , evaporated au electrodes and fixed
    以制作室温超巨磁电阻测辐射热仪为目标,将t _ ( mt ) 300k , tcr 5的薄膜进行光刻、电极制作、封装等处理制作测辐射热仪原型器件。
  2. The main topic of this thesis is to deposit the lacamno3 films using the pulsed laser deposition ( pld ) technique , and to improve the properties of the films through a serials of processes including the post annealing treatments . at last , the relation between the physical properties and the film making processes of the materials are discussed and some possible applications explored
    本论文的任务就是利用脉冲激光沉积lacamno _ 3薄膜,并通过退火等一系列工艺处理提高薄膜性质,最终制作测辐射热仪的敏感元件,同时也对材料的物性展开讨论,以探寻更多的应用。
  3. One of the most important directions in the study of colossal magnetoresistance materials is to fabricate the bolometer , which can work near the room temperature and shows an excellent performance , if the films can be prepared with the metal - insulator transition temperature ( tmi ) reaching to the room temperature
    利用超巨磁电阻材料制作工作于室温的高性能测辐射热仪是国际上cmr应用研究的一个重要方向,而能否制备具有室温转变点的薄膜材料是其中的一个决定因素。
  4. The resistivity of the films drops compared with the as - grown films , but the temperature of maximum magnetoresistance reaches 287k , very close to the room temperature . therefore it is not only an important improvement to fabricate the cmr bolometer which can work near room temperature , but also a prospective research for other applications such as magnetic - sensors , spintronics devices and infrared detectors
    同时,退火后薄膜的电阻率明显下降,外加5t磁场时,最大磁电阻率温度点上升到287k ,接近于室温,这不仅为制作室温超巨磁电阻测辐射热仪打下了坚实的基础,也为其它许多器件的应用提供了可能。

Related Words

  1. 辐射热校正
  2. 辐射热床
  3. 辐射热传感器
  4. 辐射热点
  5. 辐射热带
  6. 辐射热干燥器
  7. 辐射热测量
  8. 辐射热损失
  9. 辐射热体
  10. 辐射热交换
  11. 辐射热校正
  12. 辐射热效应
  13. 辐射热源
  14. 辐射热源法
PC Version

Copyright © 2018 WordTech Co.