A collision resolution mechanism based on recycling fiber delay line(Rec-FDL) is presented and the stability and delay model related to the mechanism are established.
提出基于循环光纤延时线(Rec-FDL)的冲突解决方案,建立了该结构解决系统冲突时的稳定性及时延模型。
The absorption spectrum and the decay of M intermediate in the photocycle of bR were measured.
利用紫外 -可见分光光度计和自制的毫秒级动力学光谱仪,检测了样品的吸收光谱和光循环M中间体在脉冲光激发下随时间的变化;同时,利用凝胶扫描成像仪及相关分析软件考察了样品成膜后的均匀程度。
By using modulated Q pulse light of 532 nm and continuous probe light of different wavelengths, fast photoresponse characteristic of photocycle and photoabsorption of different intermediate based on bacteriorhodopsin (BR) film are studied.
在 5 32nm的调Q脉冲激发光和不同波长的连续探测光作用下 ,研究了细菌视紫红质 (BR)膜的光循环过程中的快速响应特性及各中间态的快速光吸收特性。
And them,the three examples of applying this algorithm to BR′s photocycle are reported.
这说明基于光循环过程随机特性[1] 所提出的BR光谱和光电响应概率贡献 ,反映了光谱和光电响应在BR中间态间上的分配 。
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