Significant advances in the development of high electron-mobility field-effect transistors (HEMT's) have resulted in cryogenic, low-noise amplifiers (LNA's) whose noise temperatures are within an order of magnitude of the quantum noise limit (hf/k). Further advances in HEMT technology at cryogenic temperatures may eventually lead to the replacement of maser and superconducting insulator superconducting front ends in the 1- to 100-GHz frequency band. Key to identification of the best HEMT's and optimization of cryogenic LNA's are accurate and repeatable device measurements at cryogenic temperatures. This article describes the design and operation of a cryogenic coplanar waveguide probe system for the characterization and modeling of advanced...
The InGaAs/InAlAs/InP high electron mobility transistor (InP HEMT) is the superior technology for th...
The InAlAs/InGaAs/InP high-electron mobility transistor (InP HEMT) is the preferred low-noise device...
We present a way to design a high-frequency low-temperature pHEMT-based balanced amplifier. The desi...
A cryogenic measurement system capable of performing on-wafer RF testing of semiconductor devices an...
A broadband low-noise four-stage high-electron-mobility transistor amplifier was designed and charac...
The cryogenic noise temperature performance of a two-stage and a three-stage 32 GHz High Electron Mo...
A probe station, suitable for the electrical characterization of integrated circuits at cryogenic te...
In most radio astronomy instrumentation, cryogenic low noise amplifiers (LNA) are used as intermedia...
New low-noise cryogenic input transmission lines have been developed for the Deep Space Network (DSN...
Detection and processing of microwave signals is of substantial scientific importance in fields rang...
Indium phosphide high electron mobility transistors (InP HEMTs), are today the best transistors for ...
The InP HEMT is the preferred transistor technology for cryogenic low-noise amplification from 1 GHz...
The rapid advances recently achieved by cryogenically cooled high electron mobility transistor (HEMT...
We present the TRW 0.1 µm InP HEMT MMIC production technology that has been developed and used for s...
This paper describes a method for designing cryogenic silicon-germanium (SiGe) transistor low-noise ...
The InGaAs/InAlAs/InP high electron mobility transistor (InP HEMT) is the superior technology for th...
The InAlAs/InGaAs/InP high-electron mobility transistor (InP HEMT) is the preferred low-noise device...
We present a way to design a high-frequency low-temperature pHEMT-based balanced amplifier. The desi...
A cryogenic measurement system capable of performing on-wafer RF testing of semiconductor devices an...
A broadband low-noise four-stage high-electron-mobility transistor amplifier was designed and charac...
The cryogenic noise temperature performance of a two-stage and a three-stage 32 GHz High Electron Mo...
A probe station, suitable for the electrical characterization of integrated circuits at cryogenic te...
In most radio astronomy instrumentation, cryogenic low noise amplifiers (LNA) are used as intermedia...
New low-noise cryogenic input transmission lines have been developed for the Deep Space Network (DSN...
Detection and processing of microwave signals is of substantial scientific importance in fields rang...
Indium phosphide high electron mobility transistors (InP HEMTs), are today the best transistors for ...
The InP HEMT is the preferred transistor technology for cryogenic low-noise amplification from 1 GHz...
The rapid advances recently achieved by cryogenically cooled high electron mobility transistor (HEMT...
We present the TRW 0.1 µm InP HEMT MMIC production technology that has been developed and used for s...
This paper describes a method for designing cryogenic silicon-germanium (SiGe) transistor low-noise ...
The InGaAs/InAlAs/InP high electron mobility transistor (InP HEMT) is the superior technology for th...
The InAlAs/InGaAs/InP high-electron mobility transistor (InP HEMT) is the preferred low-noise device...
We present a way to design a high-frequency low-temperature pHEMT-based balanced amplifier. The desi...