浓度边界层是晶体生长过程中分析界面输运现象的重要元素。
Concentration boundary layer is an important subject in discussion of interfacial transfer phenomena in crystal growth.
计算结果对于分析一类管道中热和动量输运现象均有普遍指导意义。
Similarly, the numerical results presented can also be used to predict thermal conductivity and diffusion and momentum transport phenomena in...
计算结果对于分析一类管道中热和动量输运现象均有普遍指导意义。
Similarly, the numerical results presented can also be used to predict thermal conductivity and diffusion and momentum transport phenomena in the ki…
计算结果对于分析一类管道中热和动量输运现象均有普遍指导意义。
Similarly, the numerical results presented can also be used to predict thermal conductivity and diffusion and momentum transport phenomena in the kind of duct...
对侧向表面磁超晶格结构中电子的隧穿输运现象作了深入系统的研究。
We have made systematically study on tunneling transport of electrons in lateral surface magnetic superlattices.
上述物理过程可能对解释磁鞘至磁层的能量及动量异常输运现象有所帮助。
The physical processes described above may be useful in understanding the anomalous transport phenomena of energy and momentum from the magnetosheath to the magnetosphere.
极化子的研究对于解释离子晶体和极性半导体的光跃迁过程及输运现象有重要意义。
The study on this subject plays an important role in explaining the phenomena of light transition and transport in the ionic crystal and polar semiconductor.
本文提出了基于微肋管的薄液膜蒸发沸腾的输运现象数学模型及其有限差分求解方法。
The mathematic model for the transportation phenomenon of thin film evaporation basedon microfin tubes, as well as its finite difference numerical method, was conducted.
水合物生成是典型的界面传递输运现象,而气体迁移性质是这种传递过程的决定性因素。
Hydrate formation is a typical phenomenon of the interface transfer, and the nature of gas migration is the decisive factor for this transfer process.
从宏观粒子和微观粒子的输运现象及等离子体化学入手 ,建立了宏观粒子沉降过程中的纯化模型 。
The purification model of macroscopic particles in descending process is established from the transport phenomena of particles and plasma chemicals.
给出了有限颗粒法(FCM)的一个修正算法,用来模拟二维多孔介质中复杂的物理、生物化学输运现象。
A modified algorithm of finite cell method (FCM) is presented for simulating complex physical, biological and chemical transport in porous media.
自旋电子学器件需要一个有效的自旋注入到传统的半导体中,最近人们比较感兴趣的是利用自旋相关的输运现象-自旋轨道耦合来产生自旋极化。
Of special interest is to produce an uneven spin population out of an unpolarized source by means of various spin-related transport phenomena (relativistic spin-orbit interaction).
自旋电子学器件需要一个有效的自旋注入到传统的半导体中,最近人们比较感兴趣的是利用自旋相关的输运现象-自旋轨道耦合来产生自旋极化。
Of special interest is to produce an uneven spin population out of an unpolarized source by means of various spin-related transport phenomena (relativistic spin-orbit interaction).
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