Cryogenic Controller for Electrostatically Controlled Quantum Dots in 22-nm Quantum SoC

Autor: Robert Bogdan Staszewski, Ali Esmailiyan, Hongying Wang, Eugene Koskin, Panagiotis Giounanlis, Xutong Wu, Anna Koziol, Andrii Sokolov, Imran Bashir, Mike Asker, Dirk Leipold, Reza Nikandish, Teerachot Siriburanon, Elena Blokhina
Jazyk: angličtina
Rok vydání: 2022
Předmět:
Zdroj: IEEE Open Journal of the Solid-State Circuits Society, Vol 2, Pp 103-121 (2022)
Druh dokumentu: article
ISSN: 2644-1349
DOI: 10.1109/OJSSCS.2022.3213528
Popis: We present a fully integrated cryogenic controller for electrostatically controlled quantum dots (QDs) implemented in a commercial 22-nm fully depleted silicon-on-insulator CMOS process and operating in a quantum regime. The QDs are realized in local well areas of transistors separated by tunnel barriers controlled by voltages applied to gate terminals. The QD arrays (QDA) are co-located with the control circuitry inside each quantum experiment cell, with a total of 28 of such cells comprising this system-on-chip (SoC). The QDA structure is controlled by small capacitive digital-to-analog converters (CDACs) and its quantum state is measured by a single-electron detector. The SoC operates at a cryogenic temperature of 3.4K. The occupied area of each QDA is $0.7 \times 0.4\mu \text{m}^2$ , while each QD occupies only $20 \times 80 \text{nm}^2$ . The low power and miniaturized area of these circuits are an important step on the way for integration of a large quantum core with millions of QDs, required for practical quantum computers. The performance and functionality of the CDAC are validated in a loop-back mode with the detector sensing the CDAC-compelled electron tunneling from the quantum point contact (QPC) node into the quantum structure. The position of the injected charge inside the QDA is intended to be controlled through the CDAC codes and programmable pulse width. Quantum effects are shown by an experimental characterization of charge injection and quantization into the QDA consisting of three coupled QDs. The charge can be transferred to a QD and sensed at the QPC, and this process is controlled by the relevant voltages and CDACs.
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