Department of Electronics and Communication Engineering, National Institute of Science and Technology, Brahmapur, Odisha, India;
Department of Electronics and Communication Engineering, National Institute of Science and Technology, Brahmapur, Odisha, India;
Department of Electronics and Communication Engineering, National Institute of Science and Technology, Brahmapur, Odisha, India;
Finite Difference Time Domain; Nonlinearity; Photonic Bandgap; Photonic Bandgap Fiber;
机译:气导改性蜂窝状光子带隙光纤的密闭损耗和非线性分析
机译:液晶光子带隙光纤:在不同温度范围内的不同带隙传输
机译:混合光子晶体光纤的两个不同光子带隙之间的非线性相互作用
机译:增强光子带隙光纤引入非线性的传输效率
机译:Kerr非线性增强了光子晶体波导模式的传输模型。
机译:引入倾斜穿孔的声子板以提高带隙效率
机译:2μm的100 Gbit / s WDm传输:低损耗空心光子带隙光纤和实芯光纤的传输研究