![]() ![]() Zhao, Q., Li, Q.: Finite-data-size study on practical universal blind quantum computation. Zhao, Q., Li, Q.: Blind Quantum Computation with Two Decoy States. Sun, Y., Zheng, W.: An identity-based ring signcryption scheme in ideal lattice. Steane, A.M.: Error correcting codes in quantum theory. Shor, P.W.: Polynomial-time algorithms for prime factorization and discrete logarithms on a quantum computer. Shor, P.W.: Scheme for reducing decoherence in quantum computer memory. In: Proceedings of 37th Annual Symposium on Foundations of Computer Science, 1996, pp. Shor, P.W.: Fault-tolerant quantum computation. Raussendorf, R., Browne, D.E., Briegel, H.J.: Measurement-based quantum computation on cluster states. Raussendorf, R., Briegel, H.J.: A one-way quantum computer. In: Introduction to Quantum Computation and Information, pp. Preskill, J.: Fault-tolerant quantum computation. (2) A second objection is that to protect against. Nielsen, M.A., Chuang, I.: Quantum computation and quantum information (2002) Moreover it is not clear how to adapt the discrete theory of error correcting codes to the quantum case. Liu, M.M., Hu, Y.P.: Equational security of a lattice-based oblivious transfer protocol. Gottesman, D.: Stabilizer codes and quantum error correction. 12, 9 (2015)ĭunjko, V., Kashefi, E., Leverrier, A.: Blind quantum computing with weak coherent pulses. IEEEĬhien, C.H., Van Meter, R., Kuo, S.Y.: Fault-tolerant operations for universal blind quantum computation. In: 50th Annual IEEE Symposium on Foundations of Computer Science, 2009. Science 335(6066), 303–308 (2012)īroadbent, A., Fitzsimons, J., Kashefi, E.: Universal blind quantum computation. A qubit in an unknown state can be encoded using the circuit, as shown in Fig. ![]() ![]() arXiv preprint arXiv:1309.0005 (2013)īarz, S., Kashefi, E., Broadbent, A., Fitzsimons, J.F., Zeilinger, A., Walther, P.: Demonstration of blind quantum computing. To prepare the unknown encoded logical qubits, a good scheme was presented by Preskill for the Steane’s 7, 1, 3 code. (2008)īarz, S., Fitzsimons, J.F., Kashefi, E., Walther, P.: Experimental verification of quantum computations. Aharonov, D., Ben-Or, M.: Fault-tolerant quantum computation with constant error rate. Posted by Jimmy Chen, Quantum Research Scientist and Matt McEwen, Student Researcher, Google Quantum AI. ![]()
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