THz thermal radiation enhancement using electromagnetic crystals

Abstract: Abstract-Thermal radiation in the terahertz (THz) range only occupies a tiny portion of the whole blackbody power spectrum at room temperature. We demonstrate that a thermal radiator, which is constructed from an electromagnetic (EM) crystal, can be designed so that its photon density of states (DOS) is enhanced in the THz frequency range. We also demonstrate, as a consequence, that this source may lead to large enhancements of the radiated power over the values associated with normal blackbody radiation at th… Show more

“…Because of their special nature, EBG structures can be used to control and tailor optical processes such as emission and detection of electromagnetic radiation [5]. Many works have been reported on EBG-based THz components, including sources, detectors, filters and waveguides [1,4,6]. However, progress has been hindered by challenging issues, one of which has been the challenge of accurately characterizing the fabricated THz EBG structures.…”

Investigation of Terahertz (THz) electromagnetic band gap structures

“…Because of their special nature, EBG structures can be used to control and tailor optical processes such as emission and detection of electromagnetic radiation [5]. Many works have been reported on EBG-based THz components, including sources, detectors, filters and waveguides [1,4,6]. However, progress has been hindered by challenging issues, one of which has been the challenge of accurately characterizing the fabricated THz EBG structures.…”

Investigation of Terahertz (THz) electromagnetic band gap structures

THz Thermal Radiation Enhancement Using an Electromagnetic Crystal