Quantum Local Area Networks with Superconducting Qubits

01.09.2020 - 31.08.2023
Forschungsförderungsprojekt

Superconducting quantum circuits are one of the most promising platforms for realizing large-scale quantum computing devices, where in the near future a coherent integration of 100-1000 qubits is feasible. However, the required temperatures of only a few mK currently restrict quantum operations to superconducting qubits that are located within the same dilution refrigerator. This imposes a serious constraint on the realization of even larger quantum processors or the implementation of local- and wide-area quantum networks based on superconducting technology. The targeted breakthrough of this project is to overcome this limitation by demonstrating for the first time the operation of a quantum local area network (QuLAN), where superconducting qubits housed in spatially separated refrigerators are connected via a cryogenic transmission line. Using this setup, we will implement state transfer protocols and distributed quantum algorithms between superconducting qubits that are tens of meters apart. In parallel, we will develop and demonstrate new electro-optical quantum transducer designs for fast microwave-to-optics conversion and many other essential components and protocols for efficiently integrating multiple superconducting quantum computing units into a single coherent network. The outcomes of this project will enable the non-incremental step from intra- to inter-fridge quantum communication and will facilitate the implementation of first quantum computing clusters. In the long run, this technology provides the basis for the realization of metropolitan-area scale quantum networks using superconducting circuits.

The project will be carried out by an interdisciplinary team of experts in the fields of superconducting circuits, nano-photonics and quantum information theory, and in close collaboration with industry partners. The complementary expertise of this consortium will ensure the scientific and economic success of this project.

Personen

Projektleiter_in

Institut

Förderungsmittel

  • European Commission (EU) H2020 I.2. FET Künftige und neu entstehende Technologien Säule Wissenschaftsexzellenz Rahmenprogramm Horizont 2020 Europäische Kommission Ausschreibungskennung H2020-FETOPEN-2018-2020 Antragsnummer 899354

Forschungsschwerpunkte

  • Quantum Physics and Quantum Technologies

Externe Partner_innen

  • EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZURICH
  • Agencia Estatal Consejo Superior de Investigaciones Cientificas
  • INSTITUTE OF SCIENCE AND TECHNOLOGYAUSTRIA
  • ZURICH INSTRUMENTS AG
  • Max-Planck-Gesellschaft zur Förderung der Wissenschaften e. V.