Investigation of In-Gap Field Enhancement at Terahertz Frequencies for a Metasurface Enhanced Sensor
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Abstract
The arrangements of subwavelength inclusions in a metasurface can serve as an effective absorber for the
terahertz region. When such an absorber is combined with a unique material, the absorption can induce effects
that can lead to a change in the materials electrical properties. Vanadium dioxide shows a passive and reversible change from monoclinic insulator phase to metallic tetragonal rutile structure by using external stimuli such as temperature (340K), photo excitation, electric field, mechanical strain or magnetic field [1,2]. Upon absorption of the THz radiation, the high electric fields that are generated inside the gaps of the metasurface can serve as trigger points, as was shown previously using kV strength THz E-fields.
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0301 basic medicine, 0303 health sciences, 03 medical and health sciences
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Optics InfoBase Conference Papers
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