Abstract
Semiconductor qubits rely on the control of charge and spin degrees of freedom of electrons or holes confined in quantum dots. They constitute a promising approach to quantum information processing, complementary to superconducting qubits. Here, we demonstrate coherent coupling between a superconducting transmon qubit and a semiconductor double quantum dot (DQD) charge qubit mediated by virtual microwave photon excitations in a tunable high-impedance SQUID array resonator acting as a quantum bus. The transmon-charge qubit coherent coupling rate (~21 MHz) exceeds the linewidth of both the transmon (~0.8 MHz) and the DQD charge qubit (~2.7 MHz). By tuning the qubits into resonance for a controlled amount of time, we observe coherent oscillations between the constituents of this hybrid quantum system. These results enable a new class of experiments exploring the use of two-qubit interactions mediated by microwave photons to create entangled states between semiconductor and superconducting qubits.
Highlights
Semiconductor qubits rely on the control of charge and spin degrees of freedom of electrons or holes confined in quantum dots
An alternative approach which allows for long-range qubit–qubit interaction, inspired by superconducting circuit quantum electrodynamics (QED)[14], and recently explored for semiconductor QDs15–17, is to use microwave photons confined in superconducting resonators to mediate coupling between distant qubits
We explore the coupling of the charge degree of freedom of a single electron confined in a double quantum dots (QDs) (DQD) to a superconducting transmon qubit in the circuit QED architecture[14]
Summary
Semiconductor qubits rely on the control of charge and spin degrees of freedom of electrons or holes confined in quantum dots. The coherent coupling between dissimilar qubits over a distance of a few hundred micrometers is mediated by virtual microwave photon excitations in a high impedance SQUID array resonator, which acts as a quantum bus.
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