The research will enable to scale readout electronics for quantum computers and enable future generations of large receiver arrays for astronomy and Earth remote sensing applications.
The main question is how to reduce the complexity and power consumption of readout electronics for quantum computers with thousands of qubits. The development of readout electronics that operate at cryogenic temperatures close to or ideally equal to those of the qubits is crucial for scaling quantum processors to thousands of qubits.
Therefore, we propose the use of integrated circuits (ICs) designed exclusively to operate at cryogenic temperatures. Studying the performance of ICs cooled to cryogenic temperature is critical for the development of these cryogenic-specific ICs. These newly developed ICs will be the discrete units for future readout electronics.
The goal of this project is to develop low-power, wideband and low-noise ICs for quantum computers and future mm-Wave cryogenic receivers.
