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- This program calculates the 2D photonic Band Structure with PWE method. (译):此程序计算了二维光子带结构PWE方法。
- Two Dimensional Photonic Band Structure: Triangular Non Bravais Lattice[J]. 引用该论文 金崇君;秦柏;杨森;秦汝虎.
- In chapter four we have investigated the capability of uniaxially/biaxially dielectric anisotropy in modulating the photonic band structure. 在第四章,我们研究了单轴和双轴各向异性对光子能带的调制能力。
- This thesis is mainly focused on the development of the photonic band structures and propagation properties of PCF. 所以本论文著重于探讨光子晶体光纤的结构,对于其光子能带结构与传播特性的影响。
- With the variation of the anisotropy, the photonic band structures are modulated, the evolution of the PBGs in different situations are discussed. 通过对各向异性的调整,可以实现对光子能带的调制,文中给出了光子能带随各向异性的变化过程。
- In chapter five we have calculated the photonic band structures of PCs consisting of uniaxially/biaxially dielectric spheres with extraordinary axis along [111] direction. 在第五章,我们计算了单轴各向异性和双轴各向异性介质球构成的光子晶体的光子能带结构,并且取其异常轴沿[111]方向。
- Two Dimensional Photonic Band Structure: Triangular Non Bravais Lattice 三角形复式晶格的光子带结构研究
- A novel BWO with photonic band gap structure[J]. 引用该论文 陈波;钱宝良;钟辉煌.
- A novel photonic band gap (PBG) structure is presented in this paper. 提出一种新型微带光子带隙结构。
- photonic band structure 光子能带结构
- Band structure of the photonic crystals shows that there exists a partial bandgap. 通过分析这种光子晶体的能带结构,显示其存在部分带隙。
- (1) PBG structures with absolute band gaps are designed via the calculation of photonic band structures by plane--wave expansion method. (1)利用平面波方法计算光子晶体的能带结构,设计具有宽的光子带隙的三维光子晶体结构。
- Here the plane wave expansion method is adopted for calculating the band structure at each iteration.Then the photonic crystal can be optimized after iterations. 在迭代的过程中,我们采用平面波展开法计算光子晶体之能带,经多次迭代计算后即可合成最佳化之光子晶体。
- We compute the electromagnetic transmission through one-dimensional photonic band gap (PBG) structure with defect layers by using transfer matrix method (TMM). 利用传波矩阵方法,计算了电磁波在带有缺陷的一维光子晶体中的传波。
- Photonic crystals are a new kind of materials with photonic band gap. 光子晶体是一种具有光子带隙的新型功能材料。
- Investigations of Semiconductor Band Structure Using High Pressure. 应用高压对半导体键联结构的研究。
- Photonic crystal (PhC) is the material in which the refractive index changes periodically and have a band structure for the photon energy, this structure can control light. 光子晶体是由反射率周期性变化的材料所构成,会形成光子能带,是一种可以控制光的结构。
- A novel back-ward wave oscillator(BWO) with photonic band gap(PBG) structure is proposed. The PBG structure offers mode-confining and choosing mechanisms,restraining the lower modes and making the BWO operate at the higher modes. 提出了一种新型的具有光子晶体带隙(PBG)结构的返波振荡器(BWO),利用PBG禁带对BWO工作及输出微波模式进行调制,抑制低次模式,工作在高次模式。
- Stir cylinder liner for the band structure, mixer body is long life. 搅拌筒为带衬板结构,搅拌机架体使用寿命长。
- Our results demonstrate that lattices compounding can create broad complete photonic band gap. 设计了几种一维光子晶体光通信器件。
