Title :
Mode Regulation of Terahertz Waves Based on Periodically Corrugated Metallic Tubes
Author :
Ya-Xian Fan ; Zhi-Yong Tao ; Li-Bo Yuan
Author_Institution :
Key In-Fiber Integrated Opt. Lab., China
Abstract :
Here, we propose a special type of wall corrugations of metallic waveguides to realize mode regulation in bandgaps. The selected tube structures result in the transparency of forbidden bands to the high-order transverse mode. Complex interactions between guided wave modes attenuate all undesired modes and enhance the development of the left perfect one. The numerical simulations show that a single high-order mode can be generated efficiently in the stop band and a special terahertz beam can be obtained with wanted transverse distributions of electromagnetic fields. In addition, the proposed mode interactions can offer potential applications to the future terahertz devices.
Keywords :
electromagnetic fields; energy gap; microwave photonics; numerical analysis; optical waveguides; terahertz wave generation; transparency; band gaps; complex interactions; electromagnetic fields; forbidden bands; guided wave modes; high-order transverse mode; metallic waveguides; mode regulation; numerical simulations; periodically corrugated metallic tube structures; stop band; terahertz beam; terahertz devices; terahertz waves; transparency; transverse distributions; wall corrugations; Dispersion; Electron tubes; Optical waveguides; Photonic band gap; Photonics; Resonant frequency; Bragg resonance; Terahertz waveguide; mode regulation;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2286392
