结果表明,尘埃等离子体中存在一种由引力非稳定性产生的凝聚效应,从而导致局域密度增大。
It is shown that there is a condensation effect in dust plasma that caused by the gravitational instability, so that the density increases locally.
还有其他峰如玻色-爱因斯坦凝聚,分数霍尔效应,而更多。
There are other peaks such as Bose-Einstein condensation, fractional Hall effect, and more.
刘雄军:凝聚态理论和超冷原子气。主要关注量子物质拓扑相,摹拟规范场和自旋轨道耦合效应,以及多体物理。
Liu, Xiongjun: Condensed matter theory and ultra-cold atoms, focused on topological phase of quantum matter, synthetic gauge field and spin-orbit coupling effect, many-body physics.
综述了基于低温玻色—爱因斯坦凝聚状态新物理效应的量子陀螺和超流体陀螺的研究动态。
This paper presents the recent research status of quantum gyroscope and superfluid gyroscope based on the new physical effects of cryogenic Bose-Einstein condensation.
发挥城市广场的文化效应,必须重视其文化的展示功能、调节功能和凝聚功能。
To capitalize on the cultural effect of city squares, due attention must be paid to its multi-functions: for display, adjustment and gathering.
本文应用平均场近似的方法,研究了弱耦合的三势阱中玻色-爱因斯坦凝聚的开关效应。
We propose a scheme utilizing mean-field approach to exhibits switch effect in a symmetrical Bose-Einstein condensates triple-well potential.
结果表明,在这样的双阱势中,尽管隧道效应存在,凝聚在两个阱中的平均原子数依然相等,这保证了原子干涉的可见度。
It is shown that, in such a DWP, the average number of condensed atoms in the two traps is still same in presence of tunneling effect, this ensures the visibility of interference fringes of atoms.
巨磁电阻效应位居当前凝聚态物理研究热点中的首位,因此得到了国内外研究人员的广泛重视。
The Giant Magneto-Pesistance (GMR) effect is the primary research direction of condensed matter physics, thus it attracts more and more attention of researchers.
作者认为,泡中成核效应蛋白的存在或量与质的改变,在泡凝聚与融合过程中起重要作用。
These results suggest that the existence and changes in their quantity and quality of vesicular nucleating proteins play an important role in vesicle aggregation and fusion.
此外,隧道效应的存在对驻波激光场与凝聚原子构成的体系的态函数和能谱等一些动力学性质都有明显影响。
Moreover, the present result manifests that the tunneling effect can obviously affect the dynamics properties such as wave function, energy spectrum of the atom-standing wave laser field system.
本文运用扩展的DLVO理论和细粒在紊流中的凝聚动力学理论,研究了粗粒效应的机理。
Applied the extended DLVO theory and hydrodynamic interaction of fine particles in turbulent flow, mechanism of coarse particle effectiveness has been studied in this paper.
本文运用扩展的DLVO理论和细粒在紊流中的凝聚动力学理论,研究了粗粒效应的机理。
Applied the extended DLVO theory and hydrodynamic interaction of fine particles in turbulent flow, mechanism of coarse particle effectiveness has been studied in this paper.
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