Terahertz metasurface based on additive manufacturing technology

“…It is striking that the high precision of additive manufacturing technique, i.e., printable electronics even allows their own non-contact inline inspection by printing THz FSS [27,28]. There have already been a few reports on THz devices made via additive manufacturing, including vortex phase plates [27], diffractive THz lenses [29], gradient-refractive-index lenses [30], band-pass filters [31,32], etc. Additionally, 3D printing has been used to create a holographic metasurface antenna that operates in the GHz range [33].…”

Reconfigurable Terahertz Moiré Frequency Selective Surface Based on Additive Manufacturing Technology

“…It is striking that the high precision of additive manufacturing technique, i.e., printable electronics even allows their own non-contact inline inspection by printing THz FSS [27,28]. There have already been a few reports on THz devices made via additive manufacturing, including vortex phase plates [27], diffractive THz lenses [29], gradient-refractive-index lenses [30], band-pass filters [31,32], etc. Additionally, 3D printing has been used to create a holographic metasurface antenna that operates in the GHz range [33].…”

Reconfigurable Terahertz Moiré Frequency Selective Surface Based on Additive Manufacturing Technology