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The terahertz spectrum is often seen as the potential future for communication systems due to its large available bandwidth and spectrum availability. Line of sight communications will prove challenging due to a variety of reasons for indoor scenarios including signal loss at walls. Textured, reflective paints were made and measured to test their reflectivity improvement using terahertz time domain spectroscopy. For textured surfaces, the measured results indicated multipath fading and temporal dispersion. This effect was then modeled and investigated in simulations to determine the overall paint/texture effects on wireless communication performance.
Russ Messenger,Karl Strecker,John O'Hara, andSabit Ekin
"Improved surface reflectivity and dispersion using metal doped paints in terahertz band", Proc. SPIE 11725, Next-Generation Spectroscopic Technologies XIV, 1172507 (12 April 2021); https://doi.org/10.1117/12.2589621
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Russ Messenger, Karl Strecker, John O'Hara, Sabit Ekin, "Improved surface reflectivity and dispersion using metal doped paints in terahertz band," Proc. SPIE 11725, Next-Generation Spectroscopic Technologies XIV, 1172507 (12 April 2021); https://doi.org/10.1117/12.2589621