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arxiv: 2410.19477 · v2 · pith:7BB7S2EMnew · submitted 2024-10-25 · ❄️ cond-mat.mes-hall

Microsecond-lived quantum states in a carbon-based circuit driven by cavity photons

classification ❄️ cond-mat.mes-hall
keywords quantumcarboncavitycircuitdotsbeencoherencelarger
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Semiconductor quantum dots are an attractive platform for the realisation of quantum processors. To achieve long-range coupling between them, quantum dots have been integrated into microwave cavities. However, it has been shown that their coherence is then reduced compared to their cavity-free implementations. Here, we manipulate the quantum states of a suspended carbon nanotube double quantum dot with ferromagnetic contacts embedded in a microwave cavity. By performing quantum manipulations via the cavity photons, we demonstrate coherence times of the order of $1.3\mu s$, two orders of magnitude larger than those measured so far in any carbon quantum circuit and one order of magnitude larger than silicon-based quantum dots in comparable environment. This holds promise for carbon as a host material for spin qubits in circuit quantum electrodynamics.

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