1) technological trajectory transit
技术轨道跃迁
2) technical transition
技术跃迁
1.
Based on the analysis of the internal,external,opportunity driving factors and the couple dynamic process of enterprises technical transition realization,this paper quantitatively expressed the every driving factors optimal coupling mechanism through the driving coupling model establishment by the design of the couple parameters and factors threshold.
本文在分析推动企业实现技术跃迁的内外部动力因素、机会动力因素及其耦合动态过程的基础上,通过设计耦合参数和因素阈值建立了动力耦合模型,定量表述了各动力因素达到最适耦合的机理。
2.
Based on the analysis of promotion effect which the utilization of the opportunity works for the realization of the technical transition in an enterprise,this paper established a model to measure the frequency,time and density of the opportunities in a product lifecycle.
本文在分析机会窗口对推动企业实现技术跃迁作用的基础上,以单个产品在完整生命周期内机会窗口出现的频次、时间以及密度等为数值因子建立了测度模型。
3) no-jump trajectory
非跃迁轨道
1.
Using the no-jump trajectory, Berry s and AA s formula for geometric phase, we calculate the geometric phase of a spin-1/2 system driven by one and two mode quantum fields subject to decoherence in the adiabatic and nona.
利用量子跃迁方法,当考虑绝热和非绝热演化时,发现对于非跃迁轨道,其相位修正值是不同的。
4) f-orbital transitions
f-轨道跃迁
5) spin-orbit transition
轨旋跃迁;自旋轨道跃迁
6) d-orbitals of electronic transition
d轨道电子跃迁
补充资料:轨道保持(见航天器轨道控制)
轨道保持(见航天器轨道控制)
orbit keeping
guidQo baoehi轨道保持(o rbit keePing)见航天器轨道控制。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条