Scientific Articles on Quantum Computing

  1. Arute, F., Arya, K., Babbush, R., Bacon, D., Bardin, J. C., Barends, R., ... & Boixo, S. (2019). Quantum supremacy using a programmable superconducting processor. Nature, 574(7779), 505-510.

  2. Choi, J. H., Huh, J., Jeong, G., Lovett, B. W., & Ryu, C. (2018). Quantum algorithms for quantum field theories. arXiv preprint arXiv:1808.08927.

  3. Terhal, B. M. (2015). Quantum error correction for quantum memories. Reviews of Modern Physics, 87(2), 307-346.

  4. Blatt, R., & Roos, C. F. (2012). Quantum simulations with trapped ions. Nature Physics, 8(4), 277-284.

  5. Nayak, C., Simon, S. H., Stern, A., Freedman, M., & Das Sarma, S. (2008). Non-Abelian anyons and topological quantum computation. Reviews of Modern Physics, 80(3), 1083-1159.

  6. National Academies of Sciences, Engineering, and Medicine. (2019). Quantum computing: Progress and prospects. National Academies Press.

  7. Zhong, H. S., Wang, H., Deng, Y. H., Chen, M. C., Li, L. C., Peng, X. L., ... & Pan, J. W. (2020). Quantum computational advantage using photons. Science, 370(6523), 1460-1463.

  8. Denchev, V. S., Boixo, S., Isakov, S. V., Ding, N., Babbush, R., Smelyanskiy, V., ... & Neven, H. (2016). What is the computational value of finite-range tunneling? Physical Review X, 6(3), 031015.

  9. Manousakis, E. (2002). Quantum computation and quantum dots. Physical Review B, 66(20), 201102.

  10. Devoret, M. H., & Schoelkopf, R. J. (2013). Superconducting circuits for quantum information: an outlook. Science, 339(6124), 1169-1174.

  11. Gühne, O., & Tóth, G. (2009). Entanglement detection. Physics Reports, 474(1-6), 1-75.

  12. Ladd, T. D., Jelezko, F., Laflamme, R., Nakamura, Y., Monroe, C., & O'Brien, J. L. (2010). Quantum computers. Nature, 464(7285), 45-53.

  13. Dowling, J. P., & Milburn, G. J. (2003). Quantum technology: the second quantum revolution. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, 361(1809), 1655-1674.

  14. Shor, P. W. (1995). Polynomial-time algorithms for prime factorization and discrete logarithms on a quantum computer. SIAM review, 41(2), 303-332.

  15. Madsen, L. S., Usenko, V. C., Lassen, M., Filip, R., & Andersen, U. L. (2012). Continuous variable quantum key distribution with modulated entangled states. Nature Communications, 3(1), 1-6.

  16. Loss, D., & DiVincenzo, D. P. (1998). Quantum computation with quantum dots. Physical Review A, 57(1), 120-126.

  17. Barenco, A., Bennett, C. H., Cleve, R., DiVincenzo, D. P., Margolus, N., Shor, P., ... & Weinfurter, H. (1995). Elementary gates for quantum computation. Physical Review A, 52(5), 3457-3467.

  18. Feynman, R. P. (1982). Simulating physics with computers. International journal of theoretical physics, 21(6), 467-488.

  19. Cirac, J. I., & Zoller, P. (1995). Quantum computations with cold trapped ions. Physical review letters, 74(20), 4091-4094.

  20. DiVincenzo, D. P. (2000). The physical implementation of quantum computation. Fortschritte der Physik, 48(9‐11), 771-783.

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