Chinese translation for "能量输运"

energy tra ort
energy transport

Related Translations:

输者:  loser

输纸:  tractor feed

转输:  transfusion

输乳腺:  the lactiferous gland

输运:  transport

蜗输:  worm wheelworm-grar

输掉:  concedecrap outdropgive awayout of the moneysurrender

输水量:  carrying capacitydelivery

能量:  1.[物理学] energy; amount of energy 短语和例子能量转化 energy conversion2.(能力) capabilities; capacity; 能量不灭 conservation of energy; 能量不灭定律 law of conservation of energy; 能量交换 energy exchange; 能量均分 equ

骨髓输注:  bone marrow infusion

Example Sentences:

	1.	This is a survey lecture on energy transport models in semiconductor science 摘要这是一篇关于半导体材料科学中能量输运模型的综述性文章。
	2.	Energy transfer mechanism of desorption process induced by femtosecond pulse laser irradiation on nano - scale film 飞秒激光辐射纳米薄膜脱附的能量输运机理研究
	3.	We will discuss the initial boundary value problem with insulated boundary of two typical energy transport models in two aspects 该文在两个方面讨论了具有绝缘边值的两种典型能量输运模型的初边值问题。
	4.	The flow visualization indicates the primary cause of the phenomena to be a combination of mass transport and vortical structures induced by strong paraelectric and peristaltic electrohydrodynamic ( ehd ) body forces on the flow . the main jobs of this paper can be generalized as follow : 1 流动显示结果表明了该实验现象的初步原因，由于在自洽电磁场中等离子体的电流体( ehd )顺电力与蠕动力诱导了涡和能量输运所致。
	5.	The equations which are used in the radiation hydrodynamic model include the hydrodynamic equation of plasma , the absorption equation of laser , non - lte electron occupation probability equations , electron ion and photon energy equations ( three - temperature equations ) , and the state equation of matter and so on 考虑的方程有：等离子体流体力学方程组，激光吸收方程，非局域热动平衡电离下电子占据概率的速率方程组，电子离子的能量守恒方程组和光子的能量输运方程(三温方程组) ，关于元素不透明度的方程，以及描述物质状态的方程等。
	6.	Based on the hydrodynamics energy transport model , the degradation induced by donor interface state is analyzed for deep - sub - micron grooved - gate and conventional planar pmosfet with different channel doping density . the simulation results indicate that the degradation induced by the same interface state density in grooved - gate pmosfet is larger than that in planar pmosfet , and for both devices of different structure , the impact of n type accepted interface state on device performance is far larger than that of p type . it also manifests that the degradation is different for the device with different channel doping density . the shift of drain current induced by same interface states density increases with the increase of channel do - ping density 基于流体动力学能量输运模型，对沟道杂质浓度不同的深亚微米槽栅和平面pmosfet中施主型界面态引起的器件特性的退化进行了研究.研究结果表明同样浓度的界面态密度在槽栅器件中引起的器件特性的漂移远大于平面器件，且电子施主界面态密度对器件特性的影响远大于空穴界面态.特别是沟道杂质浓度不同，界面态引起的器件特性的退化不同.沟道掺杂浓度提高，同样的界面态密度造成的漏极特性漂移增大
	7.	Based on the hydrodynamic energy transport model , the influence of variation of negative junction depth caused by concave depth on the characteristics of deep - sub - micron pmosfet has been studied . the results are explained by the interior physical mechanism and compared with that caused by the source / drain depth . research results indicate that with the increase of negative junction depth ( due to the increase of groove depth ) , the threshold voltage increases , the sub - threshold characteristics and the drain current driving capability degrade , and the hot carrier immunity becomes better in deep - sub - micron pmosfet . the short - channel - effect suppression and hot - carrier - effect immunity are better , while the degradation of drain current driving ability is smaller than those with the increase of depth of negative junction caused by source / drain junction shallow . so the variation of concave depth is of great advantage to improve the characteristics of grooved - gate mosfet 基于能量输运模型对由凹槽深度改变引起的负结深的变化对深亚微米槽栅pmosfet性能的影响进行了分析，对所得结果从器件内部物理机制上进行了讨论，最后与由漏源结深变化导致的负结深的改变对器件特性的影响进行了对比.研究结果表明随着负结深(凹槽深度)的增大，槽栅器件的阈值电压升高，亚阈斜率退化，漏极驱动能力减弱，器件短沟道效应的抑制更为有效，抗热载流子性能的提高较大，且器件的漏极驱动能力的退化要比改变结深小.因此，改变槽深加大负结深更有利于器件性能的提高

Similar Words：

"能量输出" Chinese translation, "能量输出；输出能量" Chinese translation, "能量输入" Chinese translation, "能量输入速率" Chinese translation, "能量输送" Chinese translation, "能量数据" Chinese translation, "能量衰减" Chinese translation, "能量衰减函数" Chinese translation, "能量衰减装置" Chinese translation, "能量衰弱系数" Chinese translation