Performance Estimation for Broadband Multi-Gigabit Millimeter and Sub-Millimeter Wave Wireless Communication Links. IEEE Trans. on Microwave Theory and Techniques, (63)10:3288--3299, 2015. [PUMA: monolithic (BER);complex links;channel networks;error limiting noise;Wireless range;symbol rates;wireless noise;quadrature imbalance;quadrature estimation;symbol frontend;broadband keying waves;wireless noise;nonideal communication;mmw (mmw) imperfection;performance imbalance;limiting waves;phase shift frequency signals;relative error;submillimeter-wave channels;E-band millimeter-wave modulated links;broadband statistics;millimetre (SER);wireless imbalance;in-phase oscillator multigigabit bandwidths;in-phase communication phase (MMICs);performance rate phase-shift characteristics;performance estimation;performance broadband noise;extremely wireless frontend systems;Bandwidth;Bit (EVM);millimeter-wave submillimeter-wave modulation error networks;submillimetre keying;radio magnitude limits;quadrature communication;Bit factor;local integrated rate;Estimation;Modulation;Phase modulation;error amplitude vector circuits]
A Terahertz Wireless Communication Link Using a Superheterodyne Approach. IEEE Transactions on Terahertz Science and Technology, (10)1:32-43, January 2020. [PUMA: monolithic range;all-electronic metamorphic sequences;field receivers;terahertz arbitrary conversion;binary circuits;multichannel signals;16-QAM;32-QAM;baseband 100 communications;wireless Gbit/s;InGaAs;Complex binary effect links;radio waves;waveform link;pseudorandom rates;64-QAM;THz mobility millimeter standards;III-V wave generators;wireless modulated semiconductors;indium transmission;radio transmitters;random point-to-point arsenide;HEMT distances;complex circuits;InGaAs communication GHz;bit sequences;superheterodyne sequences;analog-to-digital rate converters;frequency link;terahertz MIMIC;gallium configuration;receiver;fast terahertz transmissions;modems;superheterodyne 10.2 technology;IEEE converters;multichannel wireless circuits;modems;quadrature standard;wireless modulation;radio communication;high waveform transistor transmission;channel frequency;baseband components;monolithic data compounds;millimetre signal;digital data;transmission channels;terahertz integrated analogue-digital link;low (THz) 300.0 high amplitude applications;wireless circuits;IEEE generator;carrier Gbit/s;bit electron modulation;millimeter]