The recent developments in quantum computing architectures have caused an increasing interest in cryogenic low-noise amplifiers (LNAs) due to their role in the qubit readout chain. Advanced quantum computers with many qubits will require cryogenic integration of thousands of LNAs. Minimizing LNA power dissipation while maintaining low noise will be of key importance due to the limited available cooling power in cryostats. In addition, self-heating (SH) and heat dissipation of cryogenic LNAs represent limiting factors in the device’s performance and integration. While SH is predicted to increase in transistor channels at cryogenic temperatures, large-scale thermal spreading outside of active devices due to SH is not well understood. Here, th...
In this paper, we present a first full set of characteristics (dc, f(T), f(max), and noise) of InAs/...
This work studies, for the first time to the authors’ best knowledge, the self-heating (SH) effect i...
We investigate in this paper the combined effect of self heating and trapping centers in short gate ...
Detection and processing of microwave signals is of substantial scientific importance in fields rang...
This work presents a self-heating study of a 40-nm bulk-CMOS technology in the ambient temperature r...
This paper reports on ultra-low power 4-8 GHz (C-band) InP high-electron mobility transistor (HEMT) ...
The energy consumed by electron devices such as field-effect-transistors (FET) in an integrated circ...
Device characteristics at cryogenic temperatures can deviate significantly from their room temperatu...
The InP HEMT is the preferred transistor technology for cryogenic low-noise amplification from 1 GHz...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
The primary research topic is the design of readout circuits for quantum systems at cryogenic temper...
We investigate the cryogenic stability of two-finger 100-nm gate-length InP HEMTs aimed for Ka- and ...
Significant advances in the development of high electron-mobility field-effect transistors (HEMT's) ...
Cryogenic CMOS circuits that efficiently connect the classical domain with the quantum world are the...
An improved HBT large signal model has been developed which allows calculation of intrinsic device t...
In this paper, we present a first full set of characteristics (dc, f(T), f(max), and noise) of InAs/...
This work studies, for the first time to the authors’ best knowledge, the self-heating (SH) effect i...
We investigate in this paper the combined effect of self heating and trapping centers in short gate ...
Detection and processing of microwave signals is of substantial scientific importance in fields rang...
This work presents a self-heating study of a 40-nm bulk-CMOS technology in the ambient temperature r...
This paper reports on ultra-low power 4-8 GHz (C-band) InP high-electron mobility transistor (HEMT) ...
The energy consumed by electron devices such as field-effect-transistors (FET) in an integrated circ...
Device characteristics at cryogenic temperatures can deviate significantly from their room temperatu...
The InP HEMT is the preferred transistor technology for cryogenic low-noise amplification from 1 GHz...
Quantum computing promises an exponential speed-up of computation compared to what is nowadays achie...
The primary research topic is the design of readout circuits for quantum systems at cryogenic temper...
We investigate the cryogenic stability of two-finger 100-nm gate-length InP HEMTs aimed for Ka- and ...
Significant advances in the development of high electron-mobility field-effect transistors (HEMT's) ...
Cryogenic CMOS circuits that efficiently connect the classical domain with the quantum world are the...
An improved HBT large signal model has been developed which allows calculation of intrinsic device t...
In this paper, we present a first full set of characteristics (dc, f(T), f(max), and noise) of InAs/...
This work studies, for the first time to the authors’ best knowledge, the self-heating (SH) effect i...
We investigate in this paper the combined effect of self heating and trapping centers in short gate ...