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.
除了在凝聚体物理学方面的最少理解的问题,金属绝缘子过渡由于电子电子相互作用是庆祝的大多数之一。
The metal-insulator transition due to electron-electron interactions is one of the most celebrated but least understood problems in condensed matter physics.
锂离子二次电池非晶态电解质作为研究热点,同时也是凝聚态物理学中最为活跃的领域之一,并且成为材料科学的一个前沿部分。
As a research hotspot, amorphous solids electrolyte for lithium-ion secondary batteries has become one of the most active fields in condensed matter physics and an advanced part in material science.
紧接着叙述了凝聚态物理学中最成功、最重要的理论之一——固体能带理论,以及在这一理论框架下的第一性原理的材料计算方法。
Following, we described solid energy band theory which is one of the most successful and important theory in condensed physics, and materials computation methods with first-principle.
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.
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.
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.
现今物理学最大的分支学科是凝聚态物质。
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.
玻色-爱因斯坦凝聚(BEC)是近年来倍受人们关注的物理学前沿研究领域。
The Bose-Einstein condensation (BEC) has become a very interesting frontier of physics in recent years.
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.
由于玻色-爱因斯坦凝聚是所有的原子聚集于能量最低态的一种独特现象,BEC的基态性质一直是实验和理论物理学家们研究的一个重要方面。
Bose-Einstein condensation is a unique phenomenon that all atoms occupy the lowest energy state. The ground state properties of BEC is one of the important object of physicists.
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.
玻色-爱因斯坦凝聚(BEC)是一类涉及物理学的很多领域的普遍物理现象。
Bose-Einstein condensation (BEC) is a ubiquitous phenomenon relating to many fields in physics.
准晶作为一种新的固态物质结构给传统的凝聚态物理学带来了深刻的变革,其弹性基本方程比传统晶体的弹性基本方程要复杂得多。
As a new structure of solid matter quasicrystal brings profound new ideas to the traditional condensed matter physics, its elastic equations are more complicated than that of traditional crystal.
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.
玻璃化转变是凝聚态物理学中最具挑战性的问题之一,也是半个多世纪以来长期未能得到解决的问题之一。
ABSTRACT the glass transition is one of the most challenging problems in condensed matter physics, and it is also a long-standing unresolved one for over half a century.
它在凝聚体物理学,统计物理学和很多个身体物理学领域对研究生和更有经验的研究人员来说理想。
It is ideal for graduate students and more experienced researchers in the fields of condensed matter physics, statistical physics, and many-body physics.
这些装置给在凝聚态物理学中的理论问题提供了快速的答案,它们可能最终会帮助人们解决诸如超导性等的谜团。
The devices provide quick answers to theoretical problems in condensed matter physics and they might eventually help solve mysteries such as superconductivity.
这本书将是研究人员和研究生在理论物理学,凝聚体物理学和领域理论方面工作的极好的参考。
This book will be an excellent reference for researchers and graduate students working in theoretical physics, condensed matter physics and field theory.
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.
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.
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