From two types of electrostatic position-dependent semiconductor qubits to quantum universal gates and hybrid semiconductor-superconducting quantum computer

Krzysztof Pomorski; Panagiotis Giounanlis; Elena Blokhina; Dirk Leipold; Paweł Pęczkowski; Robert Bogdan Staszewski

doi:10.1117/12.2525217

14 May 2019 From two types of electrostatic position-dependent semiconductor qubits to quantum universal gates and hybrid semiconductor-superconducting quantum computer

Krzysztof Pomorski, Panagiotis Giounanlis, Elena Blokhina, Dirk Leipold, Paweł Pęczkowski, Robert Bogdan Staszewski

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Proceedings Volume 11054, Superconductivity and Particle Accelerators 2018; 110540M (2019) https://doi.org/10.1117/12.2525217
Event: Superconductivity and Particle Accelerators 2018, 2018, Krakow, Poland

Abstract

Properties of two types of position-dependent electrostatic qubits: eigenenergy-based and Wannier-based, are treated with Schrodinger formalism. Their operating principles are given. The corresponding quantum universal gates for selected qubit types are described and their possible implementation is suggested. The modeling methodology of setting and reading semiconductor qubit is suggested. The interface between superconducting and semiconductor quantum computer is proposed and its implementation and operating principles are described.

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Krzysztof Pomorski, Panagiotis Giounanlis, Elena Blokhina, Dirk Leipold, Paweł Pęczkowski, and Robert Bogdan Staszewski "From two types of electrostatic position-dependent semiconductor qubits to quantum universal gates and hybrid semiconductor-superconducting quantum computer", Proc. SPIE 11054, Superconductivity and Particle Accelerators 2018, 110540M (14 May 2019); https://doi.org/10.1117/12.2525217

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