微观状态 meaning in English
micro state
microscopic state
microstate
Examples
- Valid number of microscopic states and transformation to ensembles
有效微观状态数与系综变换 - But they ' re coming from right after the big bang when the universe was microscopic , so if we find them with a future satellite we ' ll learn something drastically new
但因为它们是来自大爆炸之后宇宙还处于微观状态的时候,如果我们能找到它们,我们将了解一些全新的知识。 - On the backgrounds of researches inside and outside country , and cooperating experiments with theories analyses , the influence of different processing technology parameters and different sbs modifier sorts on the sbs modified asphalts " properties has been studied . at the same time , their microstructure are observed through fluorescence optical microscopy and scanning electronic microscopy , thus to direct modified asphalt production . on the above conclusion ' s basement , analysing some disadvantages of the storage stability test of sbs modified asphalt in the current specification , a new storage stability test apparatus is developed
本文在参考国内外研究的基础上,采用理论、试验相结合的方法,研究加工工艺参数以及改性剂种类等对sbs改性沥青性能的影响,并通过荧光显微镜、扫描电镜分析其微观形态,从而指导sbs改性沥青的生产;在此基础上,分析我国现行规范用来评价sbs改性沥青储存稳定性方面的不足,开发了新的试验仪,根据动态剪切流变试验结果和微观状态分析,提出一个新的指标? ?离析率r _ s来评价sbs改性沥青的储存稳定性;最后,针对不稳定的改性沥青提出改善措施,研究证明掺加增容剂和稳定剂是行之有效的方法。 - By observing the macrocosmic and microcosmic state of the test specimens , the ablation pattern of inhibitor was put forward and ablation mechanism was analyzed . the critical average particle diameter that influenced inhibitor ablation was obtained . the time - dependent ablation expression associated particle concentration and angle was achieved through analyzing their variation alone with the change of specimen figure
( 4 )通过对试验后绝热材料试件的表观和微观状态分析,提出了过载条件下绝热层的烧蚀模式,并分析了其烧蚀机理,获得了试验条件下影响绝热层烧蚀的平均颗粒直径。 - The entropy or number of states of system or subsystem are closely related to interaction of particles and energy level distribution , therefore , to study the temperature dependence of the specific heat may supply some important and useful microscopic information which may play an important role in understanding electronic structure , density of state , phonon spectrum etc . the specific heat measurements at low temperatures also play important roles in the finding of the third law of thermodynamics , the quantum theory of solid and bcs theory for superconducting etc . moreover , specific heat measurements help us to understand the different kinds of phase transitions ( such as : structural phase transition , magnetic phase transition , superconducting phase transition etc . ) and the scaling behavior near the critical point
系统、子系统的熵或微观状态数与微观粒子间的相互作用及能级分布密切相关,因此研究比热与温度的依赖关系能够提供被测量系统许多极其有用的微观信息,对理解固体的电子结构、电子态密度、声子谱等起着十分重要的作用。低温比热的测量和研究对热力学第三定律、固体量子理论和超导bcs等理论的建立起到了积极的推动作用。比热研究还有助于认识各类相变如结构相变,磁性相变,超导相变等及临界点附近的标度规律。