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1)  strong resonance
强共振
1.
Subharmonic and Hopf bifurcation of a vibra-impa ct system in a strong resonance case;
一类冲击振动系统在强共振条件下的亚谐分叉与Hopf分叉
2.
Dynamics analysis of two|parameter family in a case of strong resonance of vibro|impact system;
碰撞振动系统强共振下的两参数动力学分析
3.
Hopf bifurcation of a two degree of freedom vibro impact system in a strong resonance case is investigated by theoretical analysis and numerical simulations.
采用理论分析和数值仿真相结合的方法 ,研究了一类两自由度碰撞振动系统在一种强共振条件下的Hopf分叉问题 。
2)  resonant enhancement
共振增强
1.
The optical properties of two derivatives were discussed using the theories of π-electron conjugated structure and resonant/non-resonant enhancement,respectively.
采用吸收光谱、荧光光谱和皮秒Z-扫描等实验方法研究了侧链长度的不同对聚[2-甲氧基-5-(2′-乙基-己氧基)]对苯乙炔(MEH-PPV)和聚(2,5-二辛氧基)对苯乙炔(DO-PPV)两种聚对苯乙炔(PPV)衍生物光学性质的影响,并用π-电子共轭结构理论和共振、非共振增强理论进行了分析。
2.
The optical properties of the three compounds were discussed on the basis of π-electron conjugated structures and resonant/non-resonant enhancement.
主要采用吸收光谱、荧光光谱和皮秒Z-扫描等实验方法研究了三种不同取代基的卟啉化合物5,10,15,20-四对羟基苯基卟啉[T(4-HP)P]、5,10,15,20-四对酯基苯基卟啉[T(4-EP)P]和5,10,15,20-四对溴苯基卟啉[T(4-BrP)P]的光学及非线性光学性质,并从离域电子共轭结构理论和共振、非共振增强理论进行了分析。
3)  Resonance enhancement
共振增强
1.
Theoretical investigation on dispersion effect and two-photon resonance enhancement of molecular first hyperpolarizability;
有机分子第一超极化率色散效应和双光子共振增强理论研究
2.
Resonance enhancement appears as the 2s and 3p states are both bound in outer well, and a resonance enhancement peak has been found at the “collapse point”.
2s,3p态都被限制在外阱时出现共振增强,在坍塌点发现共振增强峰。
4)  forced resonance
强迫共振
1.
The mechanism of forced resonance and self-excited thermoacoustic oscillation are studied to understand the combustion oscillation in thermal systems.
针对热力系统中声耦合燃烧振荡问题,分析了强迫共振和热声自激两类声耦合燃烧振荡的机理,重点综述了热声自激振荡的若干驱动机制,并给出了防止声耦合燃烧振荡的措施。
5)  strong(weak) resonance
强(弱)共振
6)  strong field resonances
强场共振
1.
It was found that the core effect of Cs atom due to the higherquantum defects can affect the ionization spectrum well above the field ionization threshold,but has negligible influence on the strong field resonances near the zero field ionizationthreshold.
发现铯原子较大量子亏损导致的核心(core)效应可影响到场电离阈值以上的光谱特性,但对零场阈值附近强场共振特性的影响可以忽略。
补充资料:电子自旋共振(见电子回旋共振)


电子自旋共振(见电子回旋共振)
electron spin resonance

  电子自旋共振eleetron spin resonanee见电子回旋共振。
  
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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