The Terahertz (THz) band (0.3-3.0 THz), spans a great portion of the Radio Frequency (RF)
spectrum that is mostly unoccupied and unregulated. It is a potential candidate for …

The field of terahertz integrated technology has undergone significant development in the
past ten years. This has included work on different substrate technologies such as III–V …

Found in many terahertz (THz) and submillimeter-wave systems, GaAs Schottky diodes
continue to be one of the most useful THz devices. As a low-parasitic device that operates …

Terahertz communication is envisioned as a key technology not only for the next generation
of macro-scale networks (eg, 6G), but also for transformative networking applications at the …

We review the recent advances on the implementation of electronic circuits that operate in
the millimeter-wave (30–300 GHz) and terahertz (300–3000 GHz) frequency ranges. The …

Room-temperature terahertz (THz) quantum cascade laser sources with intracavity
difference-frequency nonlinear mixing are electrically pumped monolithic semiconductor …

Atmospheric data collected through spaceborne millimeter (mm) and submillimeter-wave
(sub-mm-wave) radiometry combined with complex numerical weather prediction models …

This article introduces a silicon-based source that can radiate power from the lower end of
the terahertz (THz) spectrum into the far-infrared region. The radiator consists of a millimeter …

In this chapter, the state-of-the-art terahertz antennas based on integrated circuit technology
for imaging and sensing applications are discussed. It is evident that in the terahertz imaging …

Millimeter-wave difference frequency generation is reported for a dual-wavelength mid-
infrared quantum cascade laser operating at room temperature. To overcome a low mid …