“变形”硅是所有最新的处理器的基本组成部分,原因是:晶格里应变诱发的形变提升了处理器的性能。
Strained silicon is a fundamental component of all recent microprocessors. The reason for its success is that local strain-induced deformation in the crystal lattice improves processor performance.
磊晶:关键与限制-晶格匹配之材料系统;应变层(晶)-厚度上限;应力对能带的影响,特性。
Epitaxy: Concerns/ constraints- lattice-matched systems; strained layers( pseudomorphic)- limits of thickness; impact of strain on bands, properties.
对量子点超晶格材料中量子点纵向周期和同层量子点的横向周期间距对量子点及其周围应变场分布的影响进行了系统的研究。
A systematic investigation is made on the influence of the longitudinal and transverse period distributions of quantum dots on the elastic strain field.
在线性驰豫应变假设下给出了应变超晶格纵向原子间距的几何模型。
A model of linear strain relaxation is proposed to obtain the interatomic longitudinal spacings of the strained superlattice.
由于本文方法只需很小的计算量且有较好的精度,对于多层应变层超晶格电子结构的研究将是有效的方法。
The small calculation effort and the satisfactory precision justify the present method as a very effective means for studying the electronic structures of multi-layers SLS.
将微观弹性应变能理论和微观扩散方程相耦合,建立起时效过程微观晶格动力学模型。
The microscopic lattice kinetic model of aging process was build, using the coupling of the theory of microscopic elastic energy and microscopic diffusion equation.
结果表明,波导层内含有均匀分布的三维应变场,晶格常数的变化随着波导取向的不同而呈现各向异性特点。
It is found that the waveguide layer contains uniformly distributed three dimensional strains and the variation of lattice constants in the waveguide depends closely on the waveguide orientation.
结果表明,波导层内含有均匀分布的三维应变场,晶格常数的变化随着波导取向的不同而呈现各向异性特点。
It is found that the waveguide layer contains uniformly distributed three dimensional strains and the variation of lattice constants in the waveguide depends closely on the waveguide orientation.
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