在凝聚态物理中,电子扮演着很重要的角色。
In condensed matter physics, electrons play important roles.
玻璃化转变问题的研究是凝聚态物理的一个新热点。
The study of glass transition phenomena has recently become of great…
与之相关的研究工作正在成为凝聚态物理的研究热点之一。
The work involved in the SET has become very hot in condensed matter physics.
氧化物薄膜的制备已经成为凝聚态物理学的一个研究热点。
The fabrication of thin oxide films has become a hot spot of research in physics of condensed matter.
半导体异质结的光学性质一直是凝聚态物理研究的热点之一。
The optical property of semiconductor heterostructures have received extensive attention in condensed matter physics in recent years.
1984年准晶体的发现是近年来凝聚态物理的一个重大突破。
The discovery of quasicrystal around 1984 is a significant breakthrough for condensed matter physics in recent years.
讨论了凝聚态物理学在当代材料研究的前沿问题中所起的作用。
Discusses various contemporary aspects of the role played by condensed matter physics on the frontiers of materials research.
单壁纳米碳管是近年来材料科学以及凝聚态物理研究的前沿和热点。
Single walled carbon nanotube (SWNT) is a hot and frontier topic of materials science and condensed matter physics in recent years.
石墨烯纳米材料是近年来材料界以及凝聚态物理研究的前沿和热点。
Graphene is a hotspot and frontier of materials research and condensed matter physics in recent years.
分子导体的发现是分子科学、凝聚态物理学及材料科学中的一件大事。
The discovery of molecular conductor has significant effects molecular science, solid-state physics and materials science.
他从一个不太可能的地方找到灵感:凝聚态物理,包括之前提到的材料——铅笔芯。
He found inspiration in an unlikely place: the physics of condensed matter, including the material of the moment - pencil lead.
分形研究是当前物理学特别是凝聚态物理中的一个十分活跃的研究领域。
In recent years the research on fractals has been an active field in the area of condensed matter physics.
本文综述凝聚态物理学近几年来的重要进展,列举了一些事例予以阐述。
The important developments in condensed matter physics in recent years are surveyed and illustrated with a number of examples.
通过研究,可以获得有关核物理、核天体物理和凝聚态物理的宝贵知识。
The valuable knowledge of nuclear physics, nuclear astrophysics and condensed state physics can be obtained in the study of low-energy nuclear reaction in metallic environment.
他们的研究将全世界的评论都聚集在了材料科学、计算机应用、凝聚态物理学上。
Their research has opened up a world of insights into materials science, computer applications and condensed matter physics.
目前这一领域的研究已成为材料科学、凝聚态物理和化学界研究的前沿和热点。
So far researches in this field have become the front edge and hot spot of material science, condensed matter physics, chemistry.
近年来,铁电材料及其应用研究已成为凝聚态物理、固体电子学领域的热门课题。
Recently, ferroelectrics materials have been investigated intensively in the condensed physics and solid-state electronics fields.
超硬材料的合成及其性质的研究,一直是凝聚态物理和材料科学研究的重点之一。
The research of synthesis and properties of superhard materials has been a focus of solid physics and material science.
这种控制会开辟一种新的模拟系统,并关联其它学科:凝聚态物理,核物理和宇宙学。
That control will open the way to the simulation of complex systems encountered in condensed-matter physics, nuclear physics, and cosmology.
希望该工作能够抛砖引玉,为高分子凝聚态物理的研究工作提供一个新的研究思路。
We hope that this work could offer one new method for the study of the condensed state physics of polymers.
高温超导电性自1986年在铜氧化物中被发现以来,迅速成为凝聚态物理研究的热点。
The cuprate oxides with high-temperature superconductivity have attracted much renewed attention in condensed matter physics due to the discovery of superconductivity in cuprate oxides in 1986.
极化子是电子与光频支纵声子相耦合系统的准粒子,是凝聚态物理学中的一个重要课题。
Polaron is the quasi particle of the electron-longitude optical phonon coupling system, which is an important subject in the condensed matter physics.
半导体物理学是凝聚态物理学的一个重要分支,也是现代微电子器件工艺学的理论核心。
Semiconductor physics is recognized as one of the major areas of condensed matter physics and the core of modern micro-electronics device technology.
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.
另外,对于CD W导体的非平衡动力学性质的研究也是当今低维凝聚态物理研究的热点之一。
In addition, the researches of the non equilibrium dynamic properties of CDW conductors have become one of the most hotpot of low dimensional condensed matter physics.
高温超导薄膜生长是研究超导现象和超导器件的基础,一直是凝聚态物理研究的一个重要课题。
High temperature superconducting film growth is the basis of superconducting phenomenon and superconducting devices, and it is the important subject of condensed matter physics research.
光学微腔是目前凝聚态物理的研究热点,它能够改变自发发射的特性(谱线宽度、发光强度等)。
Optical microcavity arouses great interest in condensed state physics. It can change characters of spontaneous emission, such as spectral full width at half-maximum, light intensity at peak and so on.
特别是1986年发现了高温氧化物超导体以后,在凝聚态物理学界掀起了研究高温超导的热潮。
Especially, since the discovery of high critical temperature cooper oxide superconductors in 1986, superconductivity research reached a high level.
特别是1986年发现了高温氧化物超导体以后,在凝聚态物理学界掀起了研究高温超导的热潮。
Especially, since the discovery of high critical temperature cooper oxide superconductors in 1986, superconductivity research reached a high level.
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