稀土合金膜具有优异的化学性质及其磁学、光学与俘获热中子等性能,为其广泛应用提供了基础。
Rare earth alloys have many desirable chemistry and magnetism behaviors, unusual optical and seizing thermal neutron properties, which provide the foundation for their applications.
相对性原理应用到电磁现象中,能使我们对电磁学规律有进一步深入的理解。
We could get more understanding of electromagnetism if theory of relativity was used for comprehending electromagnetic phenomenon.
碳纳米管的发现,引起了全世界众多科学家的广泛关注,其优异的电学、力学、磁学性能,可以在许多领域得到应用。
The discover of carbon nanotubes attract many scientists's attention. Carbon nanotubes can be used in many domain due to it have excellent mechanics, electricity and magnetics.
简要总结光电子显微术在表面结构分析,表面化学,磁学,以及半导体器件表征等方面的应用。
We briefly summarize the applications of PEEM to areas such as surface structure analysis, surface chemistry, magnetism, and semiconductor device characterization.
本文论述了非晶态合金材料的磁学性能与磁敏功能,并在此基础上对非晶态合金传感器的开发应用进行了分析研究。
The magnetic characteristics of material for amorphous alloy and magneto function are discussed. The exploit and application of sensor in engineering are described.
过渡金属硫化物类富勒烯,由于其独特的分子结构、电子结构及电、磁学性质和潜在的应用前景,因而成为当前富勒烯研究的一个热点课题。
Transitional metal sulfide fullerene-like compounds have been a topic issue due to their unique molecular structure, unusual electronic and magnetic properties as well as potential application.
铜族金属及金属氧化物纳米材料因其独特的物理化学性质,在光学、催化、气敏、磁学等领域有着广泛的应用。
Owing to unique physical and chemical properties, copper family metal and metal oxides in nanostructure have exhibited promising applications in catalysis, sensing, optics, and magnetics.
(国际地磁参考场)资料在地磁学的基础研究中得到广泛的应用。
The data of IGRF (International geomagnetic Reference Field) are widely used in the geomagnetic basic investigations.
由于稀土元素在电学、光学、磁学和化学等方面的独特性质而获得了广泛的应用,需求量逐年增加。
Due to their unique characteristics in electricity, optics, magnetics and chemistry, ra re earth elements are widely used and their demand has been increasing year by year.
均匀带电细圆环是电磁学理论及应用中的基本模型,研究其产生的电场在空间的分布具有重要意义。
A uniformly charged ring is a basic model in electromagnetics and applications, and it is important to study spatial distribution of electric field and electric potential generated by it.
作者根据近期学术交流会上的内容,结合自己的观点,阐述了地震电磁学的应用现状与发展趋势。
According to recent academic exchange, author of this paper explains his viewpoints on the current application of seismo-electromagnetism technology and points out its developing trends.
本文介绍了一种与电磁兼容仿真中电磁场计算有关的新兴学科——计算电磁学,并对其在电磁兼容仿真中的应用进行了介绍。
This paper introduce Computational Electromagnetics a new subject in analysis methods of electromagnetic field, and introduce the application of it in field of EMC.
概述了铁基大块非晶合金优异的力学性能、磁学性能、耐蚀性能和电学性能及其在实际工程上的应用前景。
The excellent mechanical properties, magnetic properties, corrosion resistance properties, electrical properties and applications of Fe-based bulk amorphous alloys are summarized.
稀土合金膜具有优异的化学性质及其磁学、光学与俘获热中子等性能,为其广泛应用提供了基础。
Rare earth alloys have many desirable chemistry and magnetism behaviors, unusual optical and seizing thermal neutron properties, which provide...
文章介绍了台站资料在中国地磁学基础研究中的应用。
In this paper, the author depicts the application of station data to fundamental research on geomagnetics in China.
文章综述了纳米材料在敏感、催化、生物医学、光学、磁学等方面的应用和现状,并对纳米材料的应用前景进行了展望。
The article reviews the application and prospect of nano materials in the fields of sensitivity, catalysis, biomedicine, optic, magnetic etc.
球谐分析在地磁学与地球重力学中得到广泛的应用。
The method of spherical harmonic analysis is using widely in geomagnetic and gravitation.
时域有限差分(FDTD)方法因其简单灵活有效已经广泛应用于计算电磁学中。
FDTD method had been used in electromagnetism computation widely for its simple, agility and efficiency.
有限元分析法(FEA)是一种在工程学中广泛应用的方法,最初应用于模拟并且解决各种工程力学、热学、电磁学等物理问题。
Finite element analysis (FEA) is broadly used in engineering, it was initially applied to simulate and solve a variety of engineering mechanics, thermal, electromagnetics, and other physical problems.
生物磁学是研究和应用物质的磁性和磁场与生物特性之间相互联系和相互影响的一门新兴边缘学科。
Biomagnetism is new and interdisciplinary subject, it study magnetism of matter and the connection and affection between magnetic field and organisms.
对电磁学几个例题进行分析,说明了对称、假设、叠加等解题方法在电磁学解题中的应用。
The article discusses and analyzes some examples, so as to show that the methods of summery, supposition and overlying can be used in electromagnetic.
对电磁学几个例题进行分析,说明了对称、假设、叠加等解题方法在电磁学解题中的应用。
The article discusses and analyzes some examples, so as to show that the methods of summery, supposition and overlying can be used in electromagnetic.
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