Probing individual split Cooper pairs using the spin qubit toolkit

Scherubl, Z [Scherübl, Zoltán (fizika), szerző] Fizika Tanszék (BME / TTK / FI); Palyi, A [Pályi, András (Szilárdtestfizika), szerző] Anyagfizikai Tanszék (ELTE / TTK / Fiz_I); MTA-BME Lendület Egzotikus Kvantumfázis Kutatóc... (BME / TTK / FI / EFT); Csonka, S [Csonka, Szabolcs (Kísérleti szilárd...), szerző] Fizika Tanszék (BME / TTK / FI)

Angol nyelvű Tudományos Szakcikk (Folyóiratcikk)
  • SJR Scopus - Electronic, Optical and Magnetic Materials: D1
    A superconductor is a natural source of spin-entangled spatially separated electron pairs. Although the first Cooper-pair splitter devices have been realized recently, an experimental confirmation of the spin state and the entanglement of the emitted electron pairs has been lacking up to now. In this paper, a method is proposed to confirm the spin-singlet character of individual split Cooper pairs. Two quantum dots (QDs), each of them holding one spin-prepared electron, serve as the detector of the spin state of a single Cooper pair that is forced to split when it tunnels out from the superconductor to the QDs. The number of charges on the QDs, measured at the end of the procedure, carries information on the spin state of the extracted Cooper pair. The method relies on the experimentally established toolkit of QD-based spin qubits: resonant spin manipulation, Pauli blockade, and charge measurement.
    Hivatkozás stílusok: IEEEACMAPAChicagoHarvardCSLMásolásNyomtatás
    2021-03-03 22:53