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arxiv: 2109.00994 · v3 · pith:YAPP4EWFnew · submitted 2021-09-02 · 🪐 quant-ph · cond-mat.mes-hall

Quantum design for advanced qubits: plasmonium

classification 🪐 quant-ph cond-mat.mes-hall
keywords quantumadvancedcircuitscomputersdemonstratedesignnumberplasmonium
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The increasingly complex quantum electronic circuits with a number of coupled quantum degrees of freedom will become intractable to be simulated on classical computers, and requires quantum computers for an efficient simulation. In turn, it will be a central concept in quantum-aided design for next-generation quantum processors. Here, we demonstrate variational quantum eigensolvers to simulate superconducting quantum circuits with varying parameters covering a plasmon-transition regime, which reveals an advanced post-transmon qubit, "plasmonium". We fabricate this new qubit and demonstrate that it exhibits not only high single- and two-qubit gate fidelities (99.85(1)% and 99.58(3)%, respectively), but also a shrinking (by 60%) physical size and larger (by 50%) anharmonicity than the transmon, which can bring a number of advantages for scaling up multi-qubit devices. Our work opens the way to designing advanced quantum processors using existing quantum computing resources.

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