自旋电子材料提供了同时利用电子的电荷和自旋两种特性的可能。
Spin-electronic materials provide the chance for utilizing the charge and the spin characters of electrons simultaneously.
半金属材料的一个重要特征为具有高达100%的传导电子自旋极化率。
The main feature of half_metallic materials is its high spin polarization up to 100%.
通过研究在不同的循环次数时无定形碳材料的电子自旋共抓信号的强度变化及形态结构的变化,得出了容量衰减的机理。
Through investigation of changes of the intensity of electron spinning signal and morphology of amorphous carbon materials at different cycle numbers, mechanism for capacity fading was obtained.
半金属磁性材料是一种具有极大的应用潜能的自旋电子学材料。
Half_metallic materials are a kind of functional spintronic materials with great potential application.
采用紫外-可见吸收光谱和电子自旋共振谱(esr)对硅酸铅玻璃薄膜和体材料受紫外激光照射前后的结构变化进行了研究。
The structure changes of lead silicate glasses induced by UV laser irradiation were studied by UV-visible spectra and electron spin resonance (ESR).
磁性材料在电工技术,计算机技术,通讯技术以及最近兴起的自旋电子学等领域具有重要的应用。
Magnetic materials have been employed in a truly wide range of applications such as electrical engineering, computer science, communication technology, and spintronics arisen in recent years.
电子能谱化学分析(esca)和电子自旋共振(esr)分析表明:注入的硅离子打断了材料表面的某些化学键而产生了一些新的自由基,这是表面改性的主要原因。
The results of ESCA and ESR indicated that the implanted Si ions broke up some chemical bond of surface and produced some new free radicals which may be "the main reason of surface modification."
高温超导体属于强关联电子材料,其中电子、自旋和晶格自由度之间存在较强的相互作用。
High-temperature superconductors are strongly correlated electronic materials, in which spin, charge, lattice are simultaneously active.
高温超导体属于强关联电子材料,其中电子、自旋和晶格自由度之间存在较强的相互作用。
High-temperature superconductors are strongly correlated electronic materials, in which spin, charge, lattice are simultaneously active.
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