Frequencies from 100 GHz to 3 THz are promising bands for the next generation of wireless
communication systems because of the wide swaths of unused and unexplored spectrum …

Silicon-based terahertz (THz) integrated circuits (ICs) have made rapid progress over the
past decade. The demonstrated basic component performance, as well as the maturity of …

Of the many challenges in building a wireless network at terahertz frequencies, link
discovery remains one of the most critical and least explored. In a network of mobile …

This paper presents a millimeter-wave fully differential transformer-based passive reflection-
type phase shifter (RTPS) capable of performing full span 360° continuous phase shift from …

This article presents an extremely broadband 24.5-43.5 GHz receiver (RX) achieving 32-56-
dB instantaneous full-band image rejection (IR), which supports multiple major mm-Wave …

In this article, we present a 438-479-GHz fully integrated 25-element radiator array source
based on a scalable structure of coupled standing wave oscillator cells without extra loss …

Wireless backscattering has been deemed suitable for various emerging energy-
constrained applications given its low-power architectures. Although existing backscatter …

A fully integrated single-chip transceiver (TRX) with on-chip antennas for transmitting and
receiving signals within a continues frequency range from 305 to 375 GHz is presented. The …

In this paper, a 0.34-THz 2× 2 phased array integrated circuit is presented, which
demonstrates a new approach for implementing phased arrays in the millimeter-wave (mm …

Connecting chips within a module is a basic requirement in transforming MMIC performance
to system functionality. More and more applications demand for operation at high mm-wave …