这是一种全新的处理方法,需要在材料科学、化学和物理学诸方面进行新的研究。
It s a novel approach that will require new research in materials science, chemistry and physics to work.
一个由材料科学家和物理学家组成的研究小组宣称,石墨烯具有取代制造飞机的复合材料中的碳纤维的潜力。
A team of materials scientists and physicists has claimed that graphene has the potential to replace carbon fibres in the composites that are used to build aircraft.
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.
为此,理论物理学家米切尔·波维内丽正在建立光子和复杂材料之间相互影响的模型。
To this end, theoretical physicist Michelle Povinelli is creating models of how photons interact with complex materials.
本周,一个由物理学家和材料学家组成的小组宣布,该小组已经设计出了原型机,未来可用于制造高性能的隐身衣。
This week a team of physicists and materials scientists announced it had devised a pattern for a potentially perfect invisibility cloak.
借用物理学领域中有关材料的塑性和弹性的理论,用类比推理方法研究股票价格变化中体现的塑性和弹性。
This paper studies the plasticity and the elasticity of stock prices via analogical reasoning, with reference to material plasticity and elasticity in the field of physics.
在20世纪60年代初,物理学家们使用半导体工业中使用的工具来从头开始创建新材料,在原子尺度上一层层地建立它们。
Beginning in the 1960s, physicists were using tools adapted from the semiconductor industry to create new materials from scratch, building them up layer-by-layer at the atomic scale.
物理学家们已经成功制造出磁单极子的对应物,然而,用的材料是叫做“自旋冰”的诡异物质。
Physicists have succeeded in creating analogs of magnetic monopoles, however, in exotic materials known as "spin ice."
如果有瑕疵的材料能捕获光,Lodahl想,那么物理学家们就可以更容易地使光和物质发生耦合。
If imperfect materials could trap light, Lodahl thought, then physicists could couple light and matter with much less frustration.
与此同时,物理学家坐在地上,在笔记上胡乱记下对论文有价值的材料。
Meanwhile, the physicist had been sitting on the floor, scribbling madly on several notebooks worth of paper.
致力于寻找能够解释日后在量子物理学中被称为半导体的材料,其所具有的特殊效应的科学解释。
He searched for an explanation of the effect from what was then known of the quantum physics of semiconductors.
在这两种超导体材料中,超导电性是由于电子成双成对地集结在单一的量子态所产生,这是物理学家已知的部份。
Physicists know that in both types of material the superconductivity is caused by electrons pairing up and gathering en masse in a single collective quantum state.
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.
回顾近代历史上物理学与材料科学交叉的一些典型例子;
Selected highlights in recent history of the interaction between physics and materials science are reviewed.
依据ITER真空室物理学计算结果,确定了屏蔽区域屏蔽材料的填充率。
Filling ratios of shielding materials between VV shells were acquired according to ITER VV physics calculation results.
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.
学校的工程学、材料科学、物理学和计算机科学均进入ESI前1%。
Engineering, Material Science, Physics and Computer Science are listed in the top 1% of Essential Science Indicators (ESI).
该专业课程包括:电学基本原理、物理学、机械学、传热学、材料检测学、系统控制学以及其他相关学科。
Coursework includes the basics of electrical theory, physics, mechanics, heat transfer, materials testing, system controls, and other subjects.
因此一经诞生便引起了国际物理学、化学及材料学界的高度关注,并得到迅猛发展,成为跨学科的研究热点之一。
Therefore, There are having been aroused international physics, chemistry and materials of high academic attention and been the rapid development of interdisciplinary research focus.
文章借助物理学热传导理论,建立数学模型解释多层窗户比单层窗户保暖的原理,探讨在有限的建筑材料规定下保温效果最佳时双层玻璃之间的距离与厚度之间的数量比。
The paper establishes the mathematic model to explain the principle that the multi-tier windows can preserve more heat than the mono-tier one with the help of conducting heat theory in physics.
根据高分子物理学,建立了反应体系的零剪切黏度、表观黏度与工艺条件、材料结构的关系式。
On the basis of polymer physics, expressions of zero shear viscosity and apparent viscosity related to processing conditions and material structures were built.
应用类比推理的物理学方法,从材料的导热与导电的相似性,推导出木材弦向导热系数的理论计算公式。
Theoretical formula of wood thermal conductivity in tangential direction was derived by analogy from the fact that heat conduction of the material was similar to its electric conduction.
本课程著重于光子与半导体材料之交互影响的物理学上。
This class focuses on the physics of the interaction of photons with semiconductor materials.
这些讲稿,被在物理学和数学方面在研究生尤其瞄准,在提出更先进的结果之前,从引导材料开始。
These lectures notes, which are aimed in particular at graduate students in physics and mathematics, start with introductory material before presenting more advanced results.
导电聚合物作为新型多学科交叉的研究领域,备受世界范围内物理学、化学和材料科学家的关注。
The conducting polymer, as a new cross-subjects research field, has been widely investigated by physical scientists, chemists and material scientists all over the world.
在材料加工专业中的高分子物理教学,涉及到物理学科领域的一些内容。
In the Polymer Process speciality, the teach of High Polymer physics include some content of the physics area.
同时,也证明了利用物理学的技术与方法提取生物体信息为改良生物质材料提供科学依据,是很好的方法之一。
Moreover, it provided the scientific basis for improvement with biomaterials by using the physical technology and methods to extract the biomaterials information. It also is a good method.
只需要最少的背景材料,这本书对于在理论和实验粒子物理学里的研究生理想。
Requiring only a minimum of background material, this book is ideal for graduate students in theoretical and experimental particle physics.
应用推荐