Author Of 2 Presentations
TuA1.5 - MICROSPHERE PHOTOLITHOGRAPHY PATTERNING OF PLASMONIC SENSORS ON OPTICAL FIBER
Abstract
Abstract
Microsphere Photolithography uses a self-assembled hexagonal lattice of microspheres as an optical element to focus collimated light to an array of photonic jets inside a layer of photoresist. This technique is applied to pattern optical fiber for refractive index sensing and Surface Enhanced Raman Spectroscopy.
TuA2.5 - METASURFACE INTEGRATED MICROBOLOMETERS
Abstract
Abstract
This study reports on the integration of metasurfaces with microbolometers to provide spectral and/or polarized Long Wave Infrared selectivity. Metal antenna elements are in direct contact with SixGeyO1-x-y based microbolometers and modify the electrical/noise performance of the device in addition to engineering the electromagnetic response.
Presenter Of 2 Presentations
TuA1.5 - MICROSPHERE PHOTOLITHOGRAPHY PATTERNING OF PLASMONIC SENSORS ON OPTICAL FIBER
Abstract
Abstract
Microsphere Photolithography uses a self-assembled hexagonal lattice of microspheres as an optical element to focus collimated light to an array of photonic jets inside a layer of photoresist. This technique is applied to pattern optical fiber for refractive index sensing and Surface Enhanced Raman Spectroscopy.
TuA2.5 - METASURFACE INTEGRATED MICROBOLOMETERS
Abstract
Abstract
This study reports on the integration of metasurfaces with microbolometers to provide spectral and/or polarized Long Wave Infrared selectivity. Metal antenna elements are in direct contact with SixGeyO1-x-y based microbolometers and modify the electrical/noise performance of the device in addition to engineering the electromagnetic response.