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从第一性原理出发,利用密度泛函理论体系下的广义梯度近似,研究了Ba0.5Ca0.5ZrO3的电子结构和光学性质.计算得到该晶体的晶格常数为4.1823 A,且此材料是一种间隙的半导体材料,价带和导带都来源于Ba原子、Ca原子、Zr原子的d态和O原子的p态电子间的杂化.吸收系数为105 cm-1量级,且吸收主要集中在低能区.静态折射率为1.79,能量损失峰出现在10.8 eV处.该研究结果为Ba0.5Ca0.5ZrO3光电材料的设计和应用提供了理论依据.  相似文献   
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The purpose of the present work is to quantify the influences of the discrete nature,the surface effects,and the large deformation on the bending resonant properties of long and ultrathin 100 silicon nanocantilevers.We accomplish this by using an analytical semi-continuum Keating model within the framework of nonlinear,finite deformation kinematics.The semi-continuum model shows that the elastic behaviors of the silicon nanocantilevers are size-dependent and surfacedependent,which agrees well with the molecular dynamics results.It also indicates that the dominant effect on the fundamental resonant frequency shift of the silicon nanocantilever is adsorption-induced surface stress,followed by the discrete nature and surface reconstruction,whereas surface relaxation has the least effect.In particular,it is found that a large deformation tends to increase the nonlinear fundamental frequency of the silicon nanocantilever,depending not only on its size but also on the surface effects.Finally,the resonant frequency shifts due to the adsorption-induced surface stress predicted by the current model are quantitatively compared with those obtained from the experimental measurement and the other existing approach.It is noticed that the length-to-thickness ratio is the key parameter that correlates the deviations in the resonant frequencies predicted from the current model and the empirical formula.  相似文献   
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