吸收状态

Group velocity of the optical pulse propagation would be reduced based on coherent population oscillation effect in an absorbing medium.

由于相干布居振荡效应，光脉冲通过处于吸收状态的掺铒光纤介质时，将导致群速度传输减慢。

M/M/2 queueing system with absorbing state have been widely used in many fields such as transportation and service profession.

带吸收状态的M/M/2排队系统在交通，服务行业等领域中有广泛应用。

At the end of the current pulse, however, the trapstransfer from the absorbing to the nonabsorbing state.

但在电流脉冲终了时，具有特殊性质的陷阱就从吸收状态变成非吸收状态。

We extend this model and prove that Zhou Lin bargaining set is one of the absorbing states.This makes up there is no absorbing state besides the grand coalition,when the core is empty.

在此基础上，我们进一步推广了该模型：证明了Zhou L in谈判集是动态联盟形成过程的吸收状态之一，弥补了当核心是空集时，除了大联盟之外再无吸收状态的不足。

The reasons: first, the ink dry slowly tends to be a result of the slow evaporation rate of water, usually as a result of viscidity exorbitance or monochamus version xuetie deep and too thick membrane or for non-absorbent plastic, aluminum foil, and so on do not absorb ink, the other is for full wind conditions or no drying equipment condition or drying (including infrared small magnetic dry power) caused by the temperature low and so on.

原因：一是油墨干燥慢往往是因水的蒸发速率慢引起的，通常也会因粘度过高或版穴深而墨膜过厚或因非吸收性塑料，铝箔等不吸收油墨导致的，二是因完全无风状态下或无烘干设备条件或烘干(包括红外磁波干燥功率小)温度低造成的等等。

Based on theories of geometrical optics and electromagnetic wave promulgation, models of three status of aqueous foams transit by light were set up, and the situations of mono- and double- layer unassimilated, assimilated and electric solid infusible materials were investigated for the changes of orientation, path and energy distribution of ray.

基于试验结果，利用几何光学原理和电磁波传播理论，建立了水基泡沫三种状态下的消光模型，通过理论分析和数值模拟，研究了单层界面无吸收、双层界面无吸收、有吸收和含导电性固体不溶物情况下的光线传播规律，从光线传播方向和能量的变化方面，揭示了水基泡沫消光的机理及其对目标探测和甄别的影响。

Based on theories of geometrical optics and electromagnetic wave promulgation, models of three status of aqueous foams transit by light were set up, and the situations of mono- and double- layer unassimilated, assimilated and electric solid infusible materials were investigated for the changes of orientation, path and energy distribution of ray.

基于试验结果，利用几何光学原理和电磁波传播理论，建立了水基泡沫三种状态(来源：AcfB2d2dC论文网www.abclunwen.com)下的消光模型，通过理论分析和数值模拟，研究了单层界面无吸收、双层界面无吸收、有吸收和含导电性固体不溶物情况下的光线传播规律，从光线传播方向和能量的变化方面，揭示了水基泡沫消光的机理及其对目标探测和甄别的影响。

Only when the outer electrons forming dangling bonds absorb noncontiguous specific energy and transit into relative free status, can they bond with each other, that is, only when C atom in 3DB status takes in enough energy and conquers potential barrier can it realize reconstruction.

构成悬挂键的外层电子只有吸收非连续的特定能量跃迁成相对自由状态才可能彼此成键，即处于3DB状态的C原子吸收足够能量克服势垒才能实现重构。

An experimental apparatus of falling film absorption in a vacillating is set up to check the reliability of theoretical model and to have a deep understanding of heat and mass transfer of practical falling film absorption. Falling film absorption with TFE/NMP solution in a static vertical tube and that in a vacillating tube are investigated respectively.

为验证理论模型的可靠性并进一步深入了解实际摇摆降膜吸收过程中热、质传递情况，自建了摇摆振动单管吸收试验台；分别对静止和摇摆状态下TFE／NMP垂直管内降膜吸收进行试验研究。

Firstly, the related parameters are distributed periodically in the falling film and their periods all equal to that of vacillation of fishing vessel. Secondly, the film tangent and radial velocity components are not zero because of vacillating additional inertia forces and furthermore, in one vacillation period, most parameters are distributed quite regularly in the tangent and radial directions. Thirdly, when other parameters are kept constant, the falling film absorption is enhanced if the amplitude or the period of vacillation is moderately decreased and this result conforms to the theoretical qualitative analysis. Finally, falling film absorption changes with the solution parameters at inlet and system pressure and the change trend is very similar to what happened in the static tube.

首先，降膜内相关参数分布具有周期性且周期等于摇摆振动周期；其次，摇摆附加惯性力使液膜沿吸收管周向和径向流速不为零，而且单位摇摆周期内各参数沿周向和管长方向分布比较规律；再次，当其他参数一定时，适当减小摇摆幅度和摇摆周期，液膜吸收能力将增强，这与理论定性分析相当吻合；最后，改变溶液入口参数及吸收压力，相应的吸收情况有所改变，其趋势与静止状态下的降膜吸收非常一致。

absorbing state：吸收状态

吸收律|absorption law | 吸收状态|absorbing state | 吸性不动点|attractive fix-point

absorbing state：吸收态,吸收状态=>吸収状態

absorbing spectacle glass 吸光眼镜玻璃 | absorbing state 吸收态,吸收状态=>吸収状態 | absorbing wedge 吸收劈

alkaloid：生物硷

大溪地诺丽果内含有最强力的生物硷(Alkaloid)含量远超其他种类的诺丽果,而且生物硷 (Alkaloid)於天然状态,可被肠胃直接吸收,是全面吸收这种产品一切优点的最佳方法!

chew：咀嚼

中、英文也同时都用"吸收"(assimilate,absorb)、"消化"(digest)、"狼吞虎咽"(devour)、"咀嚼"(chew)等动词来描述不同程度的阅读状态. 某些西方爱书人且自拟为"吃书者"(book-eater),指的是自己读书又多又快. 不过,模拟终归是模拟,

energy level：能级

一般将离散的能量状态称为能级(energy level),最低的状态称为基态(groundstate),其它状态叫做激发态(excited state). 光的吸收是由于系统从光子接受能量后,从某个能级E1往更高的能级E2过渡. 因为波长为λ的光子具有能量hc/λ

excited state：激发态

叶绿素溶液在透射光下呈绿色,而在反射光下呈红色,这种现象称为叶绿素荧光现象. 叶绿素为什么会发荧光呢?当叶绿素分子吸收光量子后,就由最稳定的、能量的最低状态-基态(GROUND STATE)上升到不稳定的高能状态-激发态(EXCITED STATE).

germination：萌发

种子到植物体,首先要经过萌发(germination)阶段. 风干的种子的生理活性极其微弱,基本上处于静止状态,即所谓休眠状态. 当种子吸收了充足的水分,在适宜的条件下,有活性的种子就可以萌发. 所谓萌发,可以从三个学科角度去描述和定义:

jelly：凝胶

另外、网状分子锁即使吸收再多水份仍可保持凝胶 (Jelly) 状态. 这个构造让尿液即使施 以外在压力也不外漏. 因为高分子吸收体技术、纸尿裤的吸水性及保水性有飞跃性的进步,大大改善尿液外漏、 逆流. 因此纸张与纤维使用量减少,

absorbent for confining spills：限制溢出物蔓延的吸收性材料

absorbed gas||吸收状态气体(或瓦斯) | absorbent for confining spills||限制溢出物蔓延的吸收性材料 | Acceptance check and reception systems of plant||设备验收交接制度

Gas adsorbents：气体吸收剂

Frictionless manner 无摩擦状态 | Gas adsorbents 气体吸收剂 | Gas chromatography气相色谱