| 1. | Calculation of local density of states in the framework of u methods
方法框架下局域态密度的计算 |
| 2. | Intermolecular interaction potentials of ne - ch4 complex from local density approximation
4分子间相互作用势的局域密度近似计算 |
| 3. | Relativistic spinpolarized local density functional calculations have been performed for hgba
运用相对论的自旋极化局域密度函数方法计算了hgba |
| 4. | Most of the calculations are performed by using discrete variational cluster approach within local density approximation
大部分计算采用局域密度近似下的离散变分原子团模型。 |
| 5. | Calculation of hardness scale for elements on density functional theory with generalized local density approximation and modified slater transition - state
以密度泛函论与局域近似法及改进过渡态计算软硬度 |
| 6. | We consider also the trapped case with an external harmonic trap where two novel phase separation phases are found using the local density approximation
在有外加束缚势的实验情况下,通过局域密度泛函近似,作者发现了两种新颖的相分离相。 |
| 7. | From an analytic treatment , the state is determined by the nanotube diameter rather than chirality . the corresponding image of local density of states in real space shows a highly localized state around the defect
然后逐点计算局域态密度发现,在实空间准束缚态是一个非常局域化的效应,离开缺陷即迅速衰减。 |
| 8. | The fractional change in bold signal for a given change in blood flow can vary in different parts of the brain , depending on the local density of blood vessels and the physiological state of the particular tissues at rest
同样的血流改变所导致的血氧浓度变化信号变化,在脑的不同部位会有不同的大小,端视局部的血管密度以及静态下特定组织的生理状态而定。 |
| 9. | In chapter two we study the transport properties of a curved quantum wire , such as the mixture of transverse modes , suppress of conductance , local density , abrupt change of transmission phase and so on . these properties is compared to those of a perfect quantum wire
第二章分析了弧形量子线的模式混合,电导抑制,局域态密度,透射相位突变等性质,并将这些性质与理想直量子线进行了对比。 |
| 10. | We also derived the relationship between the radial local density distribution and the observed line integral density distribution by fourier integral transform . on this basis , the density inversion calculation is realized through fft method and is independent of abel inversion
另外,本文还着重推导了线积分密度分布和径向体密度分布之间的傅立叶积分变换关系,并利用快速傅立叶变换实现了完全抛开abel反演公式的密度反演计算。 |
