英汉例句

• The recent development of shock wave chemistry in condensed matter is briefly reviewed.

  介绍了凝聚态物质沖击波化学近年来的发展概况。

• In recent years the research on fractals has been an active field in the area of condensed matter physics.

  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。

• The discovery of quasicrystal around 1984 is a significant breakthrough for condensed matter physics in recent years.

  1984年準晶体的发现是近年来凝聚态物理的一个重大突破。

• 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.

  準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。

• The research on such state changes of condensed matter as melting and freezing is very important.

  其中有关物态变化的熔化和凝固方面的研究对凝聚态物质的研究具有深远的意义。

• The shock compression of condensed matter can be effectively dealt with by molecular dynamics, and has been applied to many fields of science.

  用分子动力学方法可以有效地研究凝聚介质的激波压缩，并在许多领域得到了广泛应用。

• Polaron is the quasi particle of the electron-longitude optical phonon coupling system, which is an important subject in the condensed matter physics.

  极化子是电子与光频支纵声子相耦合系统的準粒子，是凝聚态物理学中的一个重要课题。

• 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.

  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 devices provide quick answers to theoretical problems in condensed matter physics and they might eventually help solve mysteries such as superconductivity.

  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。

• There exist a number of typical systems and models which possess the three generator Lie algebraic structure in quantum optics, atomic and molecular physics and condensed matter physics.

  在量子光学、凝聚态物理、原子分子物理中存在许多典型的具有三生成元李代数结构的量子系统或模型。

• With the progress in density functional theory (DFT), first-principle calculation based on DFT has become a routine method for condensed matter theory, quantum chemistry and material science.

  随着密度泛函理论的发展，基于它的第一性原理计算已经成为凝聚态理论，量子化学和材料科学的常规方法。

• Recently, with the application and development of the nano-technology, the research about the spin-polarized electron transport has become an important field in condensed matter physics.

  近年来，随着纳米技术的应用和发展，自旋极化电子输运问题已经成为凝聚态物理研究中的重要领域之一。

• Discusses various contemporary aspects of the role played by condensed matter physics on the frontiers of materials research.

  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。

• His specialties are condensed matter physics, optics (linear and nonlinear), and materials science.

  专业是凝态物理、光学(线性和非线性)以及材料科学。

• Our experience was that students learned either conventional solid state physics or soft condensed matter physics, and that each group remained blissfully ignorant of the other.

  过去的经历使我们发现，无论是学传统固体物理还是软凝聚态物理的学生，他们都忽略了对方领域。

• The important developments in condensed matter physics in recent years are surveyed and illustrated with a number of examples.

  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。

• Single walled carbon nanotube (SWNT) is a hot and frontier topic of materials science and condensed matter physics in recent years.

  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。

• Among the degree specializations in physics are condensed matter physics, high energy particle physics, engineering physics, and others.

  物理学中专业化的分支有密度物理学、高能粒子学、工程物理学等。

• Liquid crystal is an important kind of soft condensed matter as well as functional material.

  液晶是一种重要的软凝聚态物质，又是一种重要的功能材料。

• 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。

• In condensed matter physics, electrons play important roles.

  在凝聚态物理中，电子扮演着很重要的角色。

• The development of soft matter physics indicates the progress of condensed matter physics in the 21st century.

  软物质物理代表了21世纪凝聚态物理发展的重要趋势，膜和泡则是重要的软物质。

• Graphene is a hotspot and frontier of materials research 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。

• Since its discovery 20 years ago, understanding the microscopic origin of superconductivity in these copper oxides has been the 「holy-grill」 in condensed matter physics.

  自从铜氧化合物在20年前被发现以后，理解它们超导电性的微观来源一直是凝聚态物理中的核心课题。

• So far researches in this field have become the front edge and hot spot of material science, condensed matter physics, chemistry.

  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。