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Students’ View of Quantum Information Technologies

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The article is a sort of advanced publication workshop prepared by a group of M.Sc. students in ICT participating in the course on QIT. The idea behind the publishing exercise is to try to link, if possible, individual own work just under realization for the thesis with new unique possibilities offered by the QIT. Each chapter is written by a single author defining concisely her/his research interest in the classical ICT field and trying to find possible correlations with respective abruptly developing branches of the QIT. The chapter texts are somehow moderated by the tutor but are exclusively authored by young researchers. The aim was to present their views on the possible development directions of particular subfields of QIT, if not fully mature, but still based on their own ideas, research and dreams.
  • Warsaw University of Technology, Poland
  • Warsaw University of Technology, Poland
  • Warsaw University of Technology, Poland
  • Warsaw University of Technology, Poland
  • Warsaw University of Technology, Poland
  • Warsaw University of Technology, Poland
  • [1] European Quantum Flagship, 2023.
  • [2] National Quantum Initiative, USA, 2023.
  • [3] European Strategic Research and Industry Agenda, Nov. 2022.
  • [4] PCSS Poznań and Institute of Bioorganic Chemistry, 2023.
  • [5] Creotech Instruments 2023, Quantum computing.
  • [6] V. Vargas-Calderón, N. Parra-A., H. Vinck-Posada, and F. A. González, “Many-qudit representation for the travelling salesman problem optimisation” Journal of the Physical Society of Japan, vol. 90, Oct 2021.
  • [7] Y. Wang, Z. Hu, B. C. Sanders, and S. Kais, “Qudits and high-dimensional quantum computing” Frontiers in Physics, vol. 8, Nov 2020.
  • [8] M. Kues, C. Reimer, P. Roztocki, L. R. Cortés, S. Sciara, B. Wetzel, Y. Zhang, A. Cino, S. T. Chu, B. E. Little, and et al., “On-chip generation of high-dimensional entangled quantum states and their coherent control”, Nature, vol. 546, p. 622-626, Jun 2017.
  • [9] H.-H. Lu, K. V. Myilswamy, R. S. Bennink, S. Seshadri, M. S. Alshaykh, J. Liu, T. J. Kippenberg, D. E. Leaird, A. M. Weiner, J. M. Lukens, and et al., “Bayesian tomography of high-dimensional on-chip biphoton frequency combs with randomized measurements” Nature Communications, vol. 13, Jul 2022.
  • [10] D. Cozzolino, B. Da Lio, D. Bacco, and L. K. Oxenløwe, “High-dimensional quantum communication: Benets, progress, and future challenges” Advanced Quantum Technologies, vol. 2, Oct 2019.
  • [11] P. J. Low, B. M. White, A. A. Cox, M. L. Day, and C. Senko, “Practical trapped-ion protocols for universal qudit-based quantum computing” Physical Review Research, vol. 2, May 2020.
  • [12] M. Kononenko, M. A. Yurtalan, S. Ren, J. Shi, S. Ashhab, and A. Lupascu, “Characterization of control in a superconducting qutrit using randomized benchmarking” Physical Review Research, vol. 3, Oct 2021.
  • [13] Nadlinger, D. P.; Drmota, P.; Nichol, B. C.; Araneda, G.; Main, D.; Srinivas, R.; Lucas, D. M.; Ballance, C. J.; Ivanov, K.; Tan, E. Y.-Z.; Sekatski, P.; Urbanke, R. L.; Renner, R.; Sangouard, N.; Bancal, J.-D.). "Experimental quantum key distribution certified by Bell's theorem". Nature, July 2022.
  • [14] Jian Li, Na Li, Lei-Lei Li, Tao Wang “One Step Quantum Key Distribution Based on EPR Entanglement”. Nature, June 2016.
  • [15] Yuen Yiu, "Is China the Leader in Quantum Communications?", Inside Science, 19 Jan 2018.
  • [16] Deutsch, David. “Quantum theory, the Church-Turing principle and the universal quantum computer”, July 1985.
  • [17] Kozłowski Adam, “Algorytmy Kwantowe”.
  • [18] Quantum Algorithm Zoo.
  • [19] Montanaro Ashley. “Quantum algorithm: an overview”, January 2016.
  • [20] Wang Guoming, “Efficient quantum algorithms foe analysing large sparse electrical networks”, July 2017.
  • [21] Miyadera Takayuki, Ohya Masanori “On Halting Process of Quantum Turing Machine”, Jan 2004.
  • [22] Xavier, Jolly, Yu, Deshui, Jones, Callum, Zossimova, Ekaterina and Vollmer, Frank. "Quantum nanophotonic and nanoplasmonic sensing: towards quantum optical bioscience laboratories on chip" Nanophotonics, vol. 10, no. 5, 2021, pp. 1387-1435.
  • [23] Slussarenko, Sergei & Pryde, Geoff. (2019). “Photonic quantum information processing: A concise review.” Applied Physics Review, 6.
  • [24] Alexey V Melkikh, “Quantum entanglement, Wheeler’s delayed choice experiment and its explanation on the basis of quantization of fields”, 2017 Journal of Physics Conference Series 880(1):012030.
  • [25] X. S. Ma, S. Zotter, J. Kofler, R. Ursin, T. Jennewein, ˇC. Brukner, and A. Zeilinger, “Experimental delayed-choice entanglement swapping”, Nature Physics 8, 480-485, 2012.
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
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