Researchers have built a miniaturized microcomb-driven terahertz wireless communication system that's 90 times smaller than conventional chips to deliver record-breaking data-transfer speeds at ...

The race to build faster wireless networks has just taken a major step forward. Researchers at Tokushima University have ...

The classic image of an archaeologist is of someone unearthing a potsherd in Pompeii or opening a Viking grave to better ...

A chip-sized device that can switch between two topologically protected light structures opens up a route to wireless ...

Japanese researchers have developed and demonstrated a microcomb-driven terahertz wireless communication system. The ...

Researchers have developed a new microcomb-driven terahertz (THz) wireless communication system that achieves data rates up ...

Researchers at Tokushima University have demonstrated single-channel wireless transmission at 112 Gbps in the 560 GHz band ...

Abstract: We propose a homodyne detection method in the terahertz-wave range to significantly improve the signal-to-noise ratio in imaging and other applications. The terahertz wave is generated by a ...

Researchers at Santa Clara University have developed a comprehensive mathematical framework to rigorously analyze and predict the behavior of terahertz (THz) radiation pulses when transported over ...

Abstract: We have developed an over 10-W peak-power, continuously frequency tunable backward terahertz (THz)-wave parametric oscillator (BW-TPO) in a palm-sized compact package. The driving pump ...

Terahertz techniques encompass a set of experimental and analytical methods that generate, manipulate, and detect electromagnetic radiation in the terahertz (THz) frequency range, typically 0.1–10 THz ...