1) group stress
集体应激
2) collective excitation
集体激发
1.
Effect of the anharmonicity of the trap on the collective excitations in Bose-Einstein condensates;
阱的非简谐性对玻色-爱因斯坦凝聚集体激发的影响
2.
The properties of the autoloealized collective excitation and soliton motion resulted from the deformation of structure and the localized fluctuation in the protein molecules with various non-linear interaction potentials between the nearest neighbour molecules have been studied.
研究了在相邻分子间具有各种非线性相互作用的蛋白质分子中由局域性涨落和结构畸变导致的自局域性集体激发和孤立子运动的特点。
3.
Due to its importance in revealing the electron-electron interaction mechanisms, properties of collective excitation in low-dimensional semiconductor structures such as superlattices, quantum wells, quantum wires, and quantum dots have become one of the frontier research fields in condensed matter physics and received durable attention now.
由于在揭示电子-电子相互作用机制方面的重要性,半导体低维结构(超晶格、量子阱、量子线和量子点等)中集体激发性质的研究成为目前凝聚态物理十分前沿的研究领域之一,受到了广泛和持续的关注。
3) Maternal stress
母体应激
4) Physical stress
躯体应激
1.
In this article,we reviewed the establishment and application of different stress models,including physical stress models,psychological stress models and multiple stress models,which are commonly used today.
文中按照应激反应类型(躯体应激、心理应激、综合应激)的不同,对每种类型应激动物模型的研制进程、目前较为公认的建模方法、优缺点及其应用范围进行了阐述,进而对各种应激模型动物神经、内分泌及免疫系统的病理生理学变化特点的研究进展进行了总结,并从神经内分泌免疫(neuro-endocrino-immune network,NIM)调节网络平衡的角度探讨不同类型应激所致NIM网络平衡失调的共性与个性,以期为寻找有效的应激预防和治疗药物提供参考。
5) collective effect
集体效应
1.
In this paper, we introduce quantum theory into the liquid crystals in order to research the collective effect (i.
为了探索其集体效应(多体效应以及集体激发导致的物理效应),本文将量子理论引入到液晶体系,研究向列相和胆甾相的微观理论。
6) collective magnetic excitation
集体磁激发
1.
The results indicate that the internal magnetic field has varied obviously with the change of grain size and environment temperature mainly due to collective magnetic excitations.
结果表明,由于集体磁激发现象的存在,随颗粒尺寸和环境温度的改变,样品的内磁场发生了明显变化。
补充资料:晶体中的元激发(见固体中的元激发)
晶体中的元激发(见固体中的元激发)
elementary excitation in crystal
晶体中的元激发eleme讯ary excitation Incrvstal见固体中的元激发。
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