Cooling force in electron cooling system is closely related to the temperature of electron beam.
电子冷却系统中冷却力的大小与电子束的温度密切相关。
Applications include the electron cooling of ion beams in storage rings and the final deceleration of antiprotons and heavy ion beams in traps.
应用包括在存储环和反质子和在陷阱的沉重的离子束的最后的减速里的电子离子束的冷却。
Reasons of failure in cooling pipe of the reactor have been studied by the chemical composition analysis, optical microscopy examination and electron probe microanalysis.
应用化学分析、金相和电子探针显微分析技术对反应器中冷却水管的失效原因进行了分析。
Due to its outstanding heat transfer capacity and compact structure, the microchannel heat sink is the best choice for cooling of high-power electron device with small volume.
微管道换热器以其换热性能卓越、结构紧凑等优点成为小体积高功率电子器件首选的新型散热方式。
Using this model, evolution profile of electron temperature with heating time in ionospheric D/E region, heating and cooling time scale, are calculated in this paper.
使用这个模型,演化与D /E区电离层的加热时间,加热和冷却时间尺度的电子温度的档案,在本文的计算。
Laser beam treatment. Similar to electron beam treatment, laser beam treatment alters the surface properties by rapid heating and rapid cooling in a very shallow region near the surface.
与电子束处理类似,激光束处理通过在靠近表面很浅的区域快速加热和快速冷却来改变表面性能。
Laser beam treatment. Similar to electron beam treatment, laser beam treatment alters the surface properties by rapid heating and rapid cooling in a very shallow region near the surface.
与电子束处理类似,激光束处理通过在靠近表面很浅的区域快速加热和快速冷却来改变表面性能。
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