Multi-Gigabit Millimeter-Wave Wireless Communication in Realistic Transmission Environments. IEEE Transactions on Terahertz Science and Technology, (5)6:1078-1087, 2015. [PUMA: (MMICs);point-to-point (mmW) Rain;Wireless attenuation circuits communication communication;Attenuation;Wind;Attenuation communication;mmW communication;radio integrated links;wireless measurement;Receivers;Bandwidth;Atmospheric measurement;complex modulation;millimeter-wave monolithic propagation;mmW radio]
A 300 GHz Wireless Link Employing a Photonic Transmitter and Active Electronic Receiver with a Transmission Bandwidth of 54 GHz. IEEE Transactions on Terahertz Science and Technology, (10)3:271-281, März 2020. [PUMA: (THz) Bandwidth;Wireless arsenide;Data circuits;Photomixers;radio communication communication;Complex communication;Receivers;Photonics;Transmitters;Indium communications;wireless gallium integrated link;terahertz modulation;millimeter monolithic wave]
Power Amplification at 0.65 THz Using InP HEMTs. IEEE Transactions on Microwave Theory and Techniques, (60)3:724-729, März 2012. [PUMA: (SSPA);sub-millimeter (TMIC) 0.65 1.7 20 3 30 629 638 640 GHz GHz;frequency GHz;power THz;size Y-junction;combiner;splitter;power-combined amplification;solid-state amplifier amplifier;TMIC amplifier;electromagnetic amplifier;solid-state amplifiers;MMIC amplifiers;millimetre amplifiers;power circuit circuits;HEMT circuits;III-V combiners;power compounds;microwave coupled coupling;WR1.5 generation;Gain;Electromagnetic integrated mW;InP;Power mW;frequency measurement;MODFETs;Indium module;HEMT module;frequency monolithic mum;power nm;size package;waveguide phosphide;HEMT;millimeter power power-amplifier process;eight-stage semiconductors;indium terahertz to transistor;integrated transition;direct wave wave;power wave;terahertz waveguide;amplifier waveguides;Power]
A Terahertz Wireless Communication Link Using a Superheterodyne Approach. IEEE Transactions on Terahertz Science and Technology, (10)1:32-43, Januar 2020. [PUMA: (THz) 10.2 100 300.0 GHz;bit Gbit/s;InGaAs;Complex Gbit/s;bit MIMIC;gallium amplitude analogue-digital applications;wireless arbitrary arsenide;HEMT binary channels;terahertz circuits;IEEE circuits;InGaAs circuits;modems;quadrature circuits;multichannel communication communication;high communications;wireless components;monolithic compounds;millimetre configuration;receiver;fast conversion;binary converters;frequency converters;multichannel data data;transmission distances;complex effect electron frequency;baseband generator;carrier generators;wireless high integrated link;low link;pseudorandom link;terahertz links;radio metamorphic millimeter mobility modulated modulation;millimeter modulation;radio monolithic point-to-point range;all-electronic rate rates;64-QAM;THz receivers;terahertz semiconductors;indium sequences;analog-to-digital sequences;field sequences;superheterodyne signal;digital signals;16-QAM;32-QAM;baseband standard;wireless standards;III-V technology;IEEE terahertz transistor transmission;channel transmission;radio transmissions;modems;superheterodyne transmitters;random wave waveform waves;waveform wireless]
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: (BER);complex (EVM);millimeter-wave (MMICs);performance (SER);wireless (mmw) amplitude bandwidths;in-phase broadband channels;E-band characteristics;performance circuits communication communication;Bit communication;mmw error error;submillimeter-wave estimation;performance estimation;symbol factor;local frequency frontend frontend;broadband imbalance;in-phase imbalance;limiting imbalance;quadrature imperfection;performance integrated keying keying;radio limiting limits;quadrature links;broadband links;channel magnitude millimeter-wave modulated modulation modulation;error monolithic multigigabit networks;error networks;submillimetre noise;Wireless noise;extremely noise;nonideal noise;quadrature oscillator phase phase-shift range;symbol rate rate;Estimation;Modulation;Phase rates;wireless shift signals;relative statistics;millimetre submillimeter-wave systems;Bandwidth;Bit vector waves;phase waves;wireless wireless]
A Miniaturized Unit Cell for Ultra-Broadband Active Millimeter-Wave Frequency Multiplication. Microwave Theory and Techniques, IEEE Transactions on, (62)6:1343--1351, Juni 2014. [PUMA: (MMIC) Field analysis;Logic and circuit circuits circuits;microwave devices devices;microwave effect frequency gates;MMICs;Millimeter integrated millimeter-wave monolithic multipliers;III--V multipliers;millimeter-microwave transistors;Harmonic transistors;Topology;GaAs wave]
A 200 GHz Monolithic Integrated Power Amplifier in Metamorphic HEMT Technology. Microwave and Wireless Components Letters, IEEE, (19)6:410--412, Juni 2009. [PUMA: 100 186 212 GHz GHz, HEMT amplifier, amplifiers amplifierscommunication electron frequency high high-resolution imaging integrated metamorphic millimeter-wave millimetre mobility monolithic nm,MMIC power radar, size systems, technology, to transistor transistors, wave]
Metamorphic HEMT MMICs and Modules Operating Between 300 and 500 GHz. Solid-State Circuits, IEEE Journal of, (46)10:2193--2202, 2011. [PUMA: 20 220 35 50 500 GCPW;GaAs;InAlAs-InGaAs;S-MMIC GHz GHz;grounded HEMT MMIC MMIC;cascode amplifier amplifiers;submillimetre arsenide;indium circuit circuit;class-B circuit;frequency circuits; circuits;III-V circuits;waveguide-to-microstrip communication compounds;coplanar compounds;submillimetre coplanar doubler frequency high-electron integrated mobility module;amplifier monolithic multipliers;gallium mum;submillimeter-wave nm;size semiconductors;aluminium sensors;size systems;metamorphic technology;metamorphic technology;monolithically to topology;grounded transistor transitions;HEMT transitions;next-generation wave waveguide waveguide;high-data-rate waveguides;frequency wireless]
A 120-145 GHz Heterodyne Receiver Chipset Utilizing the 140 GHz Atmospheric Window for Passive Millimeter-Wave Imaging Applications. Solid-State Circuits, IEEE Journal of, (45)10:1961--1967, 2010. [PUMA: 100 120 145 31 35 37 GHz GHz;frequency GHz;grounded HEMT circuit;mm circuits;MIMIC;coplanar controlled coplanar detection;millimetre electron imaging;power imaging;radio integrated mW;voltage mm mobility monolithic nm;HEMT oscillator;wavelength oscillators; receiver;high receivers;chipset receivers;voltage-controlled technology;MIMIC;VCO;atmospheric to transistor;millimeter utilization;frequency wave waveguide;heterodyne waveguides;heterodyne windows;broadband]
300 GHz Wireless Link Employing a Photonic Transmitter and Active Electronic Receiver with a Transmission Bandwidth of 54 GHz. IEEE Transactions on Terahertz Science and Technology, 1-1, 2020. [PUMA: (THz) Bandwidth;Wireless arsenide;Data circuits;Photomixers;radio communication communication;Complex communication;Receivers;Photonics;Transmitters;Indium communications;wireless gallium integrated link;terahertz modulation;millimeter monolithic wave]