We investigate the effects of a bar on optical transmission through Z-shaped metallic slit arrays by using the finite- difference time domain (FDTD) method. A new hybrid Fabry-Perot (FP) surface plasmon polariton ...We investigate the effects of a bar on optical transmission through Z-shaped metallic slit arrays by using the finite- difference time domain (FDTD) method. A new hybrid Fabry-Perot (FP) surface plasmon polariton (SPP) mode emerges when changing the geometric parameters of the bar, and this mode can be viewed as a coupling between FP mode and SPP mode. In addition, an obvious dip appears in a featured area when the bar deviates from the central line, and a small displacement of the bar leads to tremendous change of the dip. These behaviors can be attributed to the phase resonance. In short, the structure is very sensitive to the metal bar. Furthermore, it combines photonic device miniaturization with sensitivity, which is useful for making optical switches.展开更多
In this work,the electronic transport properties of Z-shaped silicene nanoribbon(ZsSiNR) structure are investigated.The calculations are based on the tight-binding model and Green's function method in Landauer-Biit...In this work,the electronic transport properties of Z-shaped silicene nanoribbon(ZsSiNR) structure are investigated.The calculations are based on the tight-binding model and Green's function method in Landauer-Biittiker formalism,in which the electronic density of states(DOS),transmission probability,and current-voltage characteristics of the system are calculated,numerically.It is shown that the geometry of the ZsSiNR structure can play an important role to control the electron transport through the system.It is observed that the intensity of electron localization at the edges of the ZsSiNR decreases with the increase of the spin-orbit interaction(SOI) strength.Also,the semiconductor to metallic transition occurs by increasing the SOI strength.The present theoretical results may be useful to design silicene-based devices in nanoelectronics.展开更多
针对一种典型结构的复合材料机身Z形隔框零件,进行RTM(resin transfer moulding)成型工艺方案的设计与验证。对零件的注射方案进行设计,并结合PAM-RTM进行仿真,仿真结果显示树脂填充率可达到100%;研究注射压力与填充时间之间的关系,得...针对一种典型结构的复合材料机身Z形隔框零件,进行RTM(resin transfer moulding)成型工艺方案的设计与验证。对零件的注射方案进行设计,并结合PAM-RTM进行仿真,仿真结果显示树脂填充率可达到100%;研究注射压力与填充时间之间的关系,得知随着注射压力增加,填充时间先较快速减小后逐步变缓。进行了RTM成型模具的设计及制造,上下模可配合不同的底架完成不同工序的操作,并设计手动液压式升降机构解决了RTM工艺零件脱模困难的问题。对RTM工艺流程进行设计并完成制造验证,结果显示零件无显著内外部缺陷,厚度偏差在±4%范围内,纤维体积含量基本达到55%以上,零件型面基本满足要求,验证了Z形隔框RTM成型工艺方案的有效性。展开更多
基金Project supported by the Specialized Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20100162110068)the National Natural Science Foundations of China (Grant Nos. 61275174 and 11164007)
文摘We investigate the effects of a bar on optical transmission through Z-shaped metallic slit arrays by using the finite- difference time domain (FDTD) method. A new hybrid Fabry-Perot (FP) surface plasmon polariton (SPP) mode emerges when changing the geometric parameters of the bar, and this mode can be viewed as a coupling between FP mode and SPP mode. In addition, an obvious dip appears in a featured area when the bar deviates from the central line, and a small displacement of the bar leads to tremendous change of the dip. These behaviors can be attributed to the phase resonance. In short, the structure is very sensitive to the metal bar. Furthermore, it combines photonic device miniaturization with sensitivity, which is useful for making optical switches.
基金Project supported by the Sari Branch,Islamic Azad University,Iran Grant No.1-24850
文摘In this work,the electronic transport properties of Z-shaped silicene nanoribbon(ZsSiNR) structure are investigated.The calculations are based on the tight-binding model and Green's function method in Landauer-Biittiker formalism,in which the electronic density of states(DOS),transmission probability,and current-voltage characteristics of the system are calculated,numerically.It is shown that the geometry of the ZsSiNR structure can play an important role to control the electron transport through the system.It is observed that the intensity of electron localization at the edges of the ZsSiNR decreases with the increase of the spin-orbit interaction(SOI) strength.Also,the semiconductor to metallic transition occurs by increasing the SOI strength.The present theoretical results may be useful to design silicene-based devices in nanoelectronics.
文摘针对一种典型结构的复合材料机身Z形隔框零件,进行RTM(resin transfer moulding)成型工艺方案的设计与验证。对零件的注射方案进行设计,并结合PAM-RTM进行仿真,仿真结果显示树脂填充率可达到100%;研究注射压力与填充时间之间的关系,得知随着注射压力增加,填充时间先较快速减小后逐步变缓。进行了RTM成型模具的设计及制造,上下模可配合不同的底架完成不同工序的操作,并设计手动液压式升降机构解决了RTM工艺零件脱模困难的问题。对RTM工艺流程进行设计并完成制造验证,结果显示零件无显著内外部缺陷,厚度偏差在±4%范围内,纤维体积含量基本达到55%以上,零件型面基本满足要求,验证了Z形隔框RTM成型工艺方案的有效性。