Title :
THz ribbon waveguides using polymer-ceramic nanocomposites
Author :
Yang, Xianbo ; Chahal, Premjeet
Author_Institution :
Dept. of Electr. & Comput. Eng., Michigan State Univ., East Lansing, MI, USA
fDate :
May 29 2012-June 1 2012
Abstract :
Thin dielectric ribbon waveguides made from polymer-ceramic nanocomposites for the fabrication of planar, low-loss and large area compatible terahertz (THz) waveguide is presented. Such a waveguide provides low propagation loss as compared to other waveguide structures (e.g., microstrip) at high frequencies. Two fabrication approaches are studied: i) photopatterning of nanocomposites, ii) laser engraving of dry nanocomposite films. Polymer ceramic nanocomposites are characterized over a wide band in the THz spectral region. The nanocomposite thin-film layer is used as the core material and it is surrounded by a low-loss low-dielectric constant cladding polymer layer. Simulation and measured results of straight and curved transmission lines demonstrate that integrated THz circuits can be realized at the wafer-level using polymer ceramic nanocomposites ribbon waveguides.
Keywords :
ceramics; microstrip lines; nanocomposites; permittivity; planar waveguides; polymers; submillimetre wave circuits; transmission lines; THz ribbon waveguides; core material; curved transmission lines; dielectric constant cladding; dry nanocomposite films; integrated THz circuits; large area compatible terahertz waveguide; low propagation loss; low-loss waveguide; microstrip; photopatterning; planar waveguide; polymer layer; polymer-ceramic nanocomposites; straight transmission lines; thin dielectric ribbon waveguides; waveguide structures; Dielectric constant; Dielectric measurements; Films; Nanocomposites; Polymers;
Conference_Titel :
Electronic Components and Technology Conference (ECTC), 2012 IEEE 62nd
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4673-1966-9
Electronic_ISBN :
0569-5503
DOI :
10.1109/ECTC.2012.6248832
