光子晶体光纤(PCF)以其独特的光学特性和灵活设计的特点,而成为近年来研究的热点。
The photonic crystal fiber (PCF) has become one of the hot spots of research in recent years because of its unique optical properties and flexible designs.
论文首先提出了一种具有更高灵活性的三维光子晶体结构,并分析了其能带结构和缺陷模特性。
First, we propose and analyze a novel 3-dimensional photonic-crystal which is capable of further exploring the design flexibility of any band-gap structure.
使用V形槽工艺,用溅射铝的方法代替扩硼工艺制备静电感应晶体管的栅极区,简化了工艺流程,使器件在调试过程中具有很大灵活性。
The gate region was fabricated by V-groove and Al sputtering, which can simplify the process, and make devices flexible in the adjustment process.
使用V形槽工艺,用溅射铝的方法代替扩硼工艺制备静电感应晶体管的栅极区,简化了工艺流程,使器件在调试过程中具有很大灵活性。
The gate region was fabricated by V-groove and Al sputtering, which can simplify the process, and make devices flexible in the adjustment process.
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