Yuanxing Xu scite author profile

Solid-state qubits integrated on semiconductor substrates currently require at least one wire from every qubit to the control electronics, leading to a so-called wiring bottleneck for scaling. Demultiplexing via on-chip circuitry offers an effective strategy to overcome this bottleneck. In the case of gate-defined quantum dot arrays, specific static voltages need to be applied to many gates simultaneously to realize electron confinement. When a charge-locking structure is placed between the quantum device and the demultiplexer, the voltage can be maintained locally. In this study, we implement a switched-capacitor circuit for charge-locking and use it to float the plunger gate of a single quantum dot. Parallel plate capacitors, transistors, and quantum dot devices are monolithically fabricated on a Si/SiGe-based substrate to avoid complex off-chip routing. We experimentally study the effects of the capacitor and transistor size on the voltage accuracy of the floating node. Furthermore, we demonstrate that the electrochemical potential of the quantum dot can follow a 100 Hz pulse signal while the dot is partially floating, which is essential for applying this strategy in qubit experiments.

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Wafer-level direct bonding of optimized superconducting NbN for 3D chip integration

Gheytaghi

Trifunovic

et al. 2021

Physica C: Superconductivity and its Applications

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Yuanxing Xu

Spiderweb Array: A Sparse Spin-Qubit Array

On-chip integration of Si/SiGe-based quantum dots and switched-capacitor circuits

Wafer-level direct bonding of optimized superconducting NbN for 3D chip integration

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