Publications

V. Radisic, K. M. K. H. Leong, X. Mei, S. Sarkozy, W. Yoshida, P. Liu, J. Uyeda, R. Lai, and W. R. Deal. A 50 mW 220 GHz power amplifier module. 2010 IEEE MTT-S International Microwave Symposium, 45-48, May 2010. [PUMA: 207 220 230 50 GHz GHz;Power GHz;frequency MMIC;coplanar Waveguide;Module amplifier amplifier;HEMT;Coplanar amplifier;eight-way amplifiers;Power amplifiers;power circuits;Bandwidth;Frequency;MMICs;Indium combiners;power combining;amplifier coplanar coupler;Dolph-Chebychev electron faults;MMIC;Power generation;Coplanar mW;frequency mobility module;solid-state on-chip phosphide;HEMTs;Circuit power state technology;HEMT to transformer;power transistors;power transistors;tandem waveguide waveguides;Solid waveguides;high]

A. Tessmann, A. Leuther, V. Hurm, I. Kallfass, H. Massler, M. Kuri, M. Riessle, M. Zink, R. Loesch, M. Seelmann-Eggebert, M. Schlechtweg, and O. Ambacher. 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]

S. Koch, M. Guthoerl, I. Kallfass, A. Leuther, and S. Saito. 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]

Conrad Clauss, Martin Dressel, and Marc Scheffler. Optimization of Coplanar Waveguide Resonators for ESR Studies on Metals. Journal of Physics: Conference Series, (592)1:012146, 2015. [PUMA: coplanar resonators waveguide] URL

Mojtaba Javaheri Rahim, Thomas Lehleiter, Daniel Bothner, Cornelius Krellner, Dieter Koelle, Reinhold Kleiner, Martin Dressel, and Marc Scheffler. Metallic coplanar resonators optimized for low-temperature measurements. Journal of Physics D: Applied Physics, (49)39:395501, 2016. [PUMA: coplanar resonators] URL