N. Akter (US) Florida International University
Florida International UniversityAuthor Of 2 Presentations
ME2.4 - RAMAN SIGNAL AMPLIFICATION IN PHOTONIC CRYSTAL MICRORING RESONATORS
Abstract
Abstract
We report on microring resonator with integrated photonic crystal that is capable of supporting discrete Raman signals with 7 orders of magnitude enhancement in the spectral range of 2-5 μm. The proposed platform can be used for advanced spectroscopic sensing applications.
TuD2.5 - HIGHLY TUNABLE, FLEXIBLE AND STRETCHABLE FREQUENCY SELECTIVE SURFACE-BASED THZ BANDPASS FILTER
Abstract
Abstract
We report on a mechanically tunable THz filter based on highly flexible and stretchable elastomer comprising metallic nanostructures. The detailed numerical studies show that the proposed structure provides band-pass filters with the linewidths of 23 GHz and 170 GHz at 0.15 THz and 0.825 THz,respectively.
Presenter Of 1 Presentation
TuD2.5 - HIGHLY TUNABLE, FLEXIBLE AND STRETCHABLE FREQUENCY SELECTIVE SURFACE-BASED THZ BANDPASS FILTER
Abstract
Abstract
We report on a mechanically tunable THz filter based on highly flexible and stretchable elastomer comprising metallic nanostructures. The detailed numerical studies show that the proposed structure provides band-pass filters with the linewidths of 23 GHz and 170 GHz at 0.15 THz and 0.825 THz,respectively.