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    • Experimenting quantum phenomena on NISQ computers using high level quantum programming
    Authors: Duc, M. Tran; Duy, V. Nguyen; Bin, Ho Le; Hung, Q. Nguyen;  Advisor: -;  Co-Author: - (2022)

    We execute the quantum eraser, the Elitzur–Vaidman bomb, and the Hardy’s paradox experiment using high-level programming language on a generic, gate-based superconducting quantum processor made publicly available by IBM. The quantum circuits for these experiments use a mixture of one-qubit and multi-qubit gates and require high entanglement gate accuracy. The results aligned with theoretical predictions of quantum mechanics to high confidence on circuits using up to 3 qubits. The power of quantum computers and high-level language as a platform for experimenting and studying quantum phenomena is henceforth demonstrated
    • Experimenting quantum phenomena on NISQ computers using high level quantum programming
    Authors: Duc M. Tran; Duy V. Nguyen; Bin Ho, Le; Hung Q. Nguyen;  Advisor: -;  Co-Author: - (2022)

    We execute the quantum eraser, the Elitzur–Vaidman bomb, and the Hardy’s paradox experiment using high-level programming language on a generic, gate-based superconducting quantum processor made publicly available by IBM. The quantum circuits for these experiments use a mixture of one-qubit and multi-qubit gates and require high entanglement gate accuracy. The results aligned with theoretical predictions of quantum mechanics to high confidence on circuits using up to 3 qubits. The power of quantum computers and high-level language as a platform for experimenting and studying quantum phenomena is henceforth demonstrated.