%0 Conference Paper
%A Bühler, Jonas
%A Nielinger, Dennis
%A Ashok, Arun
%A Duipmans, Lammert
%A Grewing, Christian
%A Kruth, Andre
%A Kusuma, Sabitha
%A Mair, Carl-Jonas
%A Schubert, Petra
%A Vliex, Patrick
%A Zambanini, Andre
%A van Waasen, Stefan
%T QUOCCA.SET: A Scalable Readout IC for Semiconductor Quantum Dots
%M FZJ-2025-03017
%D 2025
%X Universal quantum computing, requires a scalable system with millions of qubits. One of the current bottlenecks is a fast and high fidelity readout without limiting the scalability by area consumption, wiring, or power dissipation. We address this challenge by developing an integrated readout circuitry (IC), in a 22 nm FD-SOI technology, operating at deep cryogenic temperatures. The IC will be connected to a Single Electron Transistor (SET). The prototype is made for reading out two SETs. It implements a high speed mode, to perform a single bit readout to distinct │0〉and │1〉state and a high resolution mode for tuning, which amplifies the signal and passes it to the room-temperature electronics.We characterize this IC inside a closed cycle Gifford-McMahon cryostat at a temperature of 6 K. The measurement shows a power consumption of 33.6 µW/SET for the single bit readout and 216 µW for the high-resolution mode. With a sampling time of 2×1 µs, the circuit shows low noise of 223 pA (1σ) for single bit readout, while the high-resolution mode has an input-referred noise level of 188 pA RMS (10 Hz to 1 MHz).With its high bandwidth, low input noise and low power consumption, this IC paves the way for scalable integrated readout and is a decisive step on the way to universal quantum computing.
%B APS Global Physics Summit 2025
%C 16 Mar 2025 - 21 Mar 2025, Anaheim (USA)
Y2 16 Mar 2025 - 21 Mar 2025
M2 Anaheim, USA
%F PUB:(DE-HGF)6
%9 Conference Presentation
%U https://juser.fz-juelich.de/record/1043735