您要查找的是不是:
- In this paper, the electromagnetic band gap (EBG) structure is modeled by using the artificial neural network (ANN), and the ANN is trained with the converse method. 摘要文章采用人工神经网络对电磁带隙结构进行建模,并结合逆向方法训练网络;
- In this paper,the electromagnetic band gap(EBG) structure is modeled by using the artificial neural network(ANN),and the ANN is trained with the converse method. 文章采用人工神经网络对电磁带隙结构进行建模,并结合逆向方法训练网络;
- Based on analysis of the periodic concomitant response of model T Low-Pass Filter(LPF),a microstrip filter of Electromagnetic Band Gap(EBG) structure was designed that satisfied Bragg equation. 在分析T型低通滤波器的周期性副响应的基础上,设计出满足布喇咯公式的电磁带隙(EBG)结构的微带滤波器。
- The compact finite-difference time-domain(CFDTD) method was employed to simulate the dispersion properties in an electromagnetic band gap(EBG) waveguide which was uniform in the propagation direction. 建立了紧凑格式二维时域有限差分法(CFDTD)模型,利用二维网格划分计算三维传播问题,简化了计算量。
- Analysis of dispersion properties in metal electromagnetic band gap waveguide 金属电磁带隙波导色散特性分析
- Application of the artificial neural network to the design of electromagnetic band gap structure 人工神经网络在电磁带隙结构设计中的应用
- Multiple Electromagnetic Band Gaps from H-Shaped Fractals 具有多重电磁带隙的H型平面分形结构
- electromagnetic band gap (EBG) 电磁带隙
- electromagnetic band gap 电磁带隙
- A novel BWO with photonic band gap structure[J]. 引用该论文 陈波;钱宝良;钟辉煌.
- The band gap structure of 1-D electromagnetic crystals was calculated by plane wave expansion(PWE) method in this paper. 用平面波展开(PWE)法计算了一维电磁晶体的带隙结构。
- 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。
- 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。
- electromagnetic band - gap structure EBG结构
- The optical band gap energy of CuInS2 thin films, deduced from the optical transmission spectrum, was 1. 50 eV. 结果表明;所制得的样品为四方结构的多晶CuInS_2薄膜;Cu/In比接近化学计量比;其光学禁带宽度为1.;50eV。
- The optical band gap increases from 3.21 eV to 3.25 eV as increasing dopant concentration from 0.01% up to 1%. 薄膜光学带隙随掺杂原子分数的提高从3.;21 eV增大到3
- But CIS possesses band gap energy equal to 1.04eV, which is not within the maximum solar absorption region. 太阳光的吸收要求材料的最佳带隙在1.;45eV左右;不过CuInSe_2的带隙为1
- 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。
- The reduction of Si band gap and the enhancement of light intensity under external tensile strain are observed. 在施加外加的伸展应力之下,我们观察到矽的能隙缩减还有光强度的增加。