Quantum cryptography based on the Deutsch-Jozsa algorithm
DOI10.1007/s10773-017-3456-xzbMath1379.81040OpenAlexW2696839143WikidataQ62037281 ScholiaQ62037281MaRDI QIDQ1685724
Ahmed Farouk, Koji Nagata, Tadao Nakamura
Publication date: 19 December 2017
Published in: International Journal of Theoretical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10773-017-3456-x
quantum cryptographyquantum computation architectures and implementationsquantum algorithms, protocols, and simulations
Quantum computation (81P68) Cryptography (94A60) Quantum algorithms and complexity in the theory of computing (68Q12) Quantum cryptography (quantum-theoretic aspects) (81P94)
Related Items (14)
Cites Work
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- Dynamical analysis of Grover's search algorithm in arbitrarily high-dimensional search spaces
- Quantum computation with coherent spin states and the close Hadamard problem
- On Bell, Suarez-Scarani, and Leggett experiments: reply to a comment by Marek Żukowski in [Found. Phys. 38:1070, 2008]
- Quantum cryptography, quantum communication, and quantum computer in a noisy environment
- A quantum algorithm for approximating the influences of Boolean functions and its applications
- Quantum Gauss-Jordan elimination and simulation of accounting principles on quantum computers
- Fiber-Optics Implementation of the Deutsch-Jozsa and Bernstein-Vazirani Quantum Algorithms with Three Qubits
- Experimental Realization of Deutsch’s Algorithm in a One-Way Quantum Computer
- Rapid solution of problems by quantum computation
- Quantum theory, the Church–Turing principle and the universal quantum computer
- Quantum algorithms revisited
- Quantum Complexity Theory
- Quantum cryptography based on Bell’s theorem
- Bell’s theorem without inequalities
- Proceedings of the twenty-fifth annual ACM symposium on Theory of computing - STOC '93
- Quantum theory: concepts and methods
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