Das R.Jha R.Srivastava T.2025-02-172011http://dx.doi.org/10.1117/12.897719https://idr.iitbbs.ac.in/handle/2008/125We present a detailed analysis and recipe for designing a channel Bragg-plasmon coupled waveguide where the intermodal coupling between a band gap-guided mode and surface plasmon mode substantially modifies the phase velocity dispersion slope of supermodel. This leads to appreciably large group-velocity-dispersion with peak value of ? 4.33�104 ps/km-nm close to the optical communication band as well as interaction bandwidth of about 765 pm for 1 cm long waveguide. We also found that bandgap guided Bragg modes exhibit stronger dispersive features than the plasmon modes around ? 1.50 ?m which is exactly opposite to what is usually observed in visible region. The impact of waveguide parameters such as channel width etc. on mode-coupling mechanism is also studied with significant emphasis on the propagation loss suffered by the supermodes of the structure. � 2011 SPIE.enBragg reflectionChannel waveguideDispersionSurface plasmonConference Paper