Source: https://kazanqc.org/2014/11/10/xii-international-scientific-and-technical-conference-in-kqc/
Timestamp: 2019-04-23 10:04:13+00:00

Document:
00-9.20. (invited) Z. Qin, A. S. Prasad, T. Brannan, A. MacRae, A. Lezama and A. I. Lvovsky (Institute for Quantum Information Science, University of Calgary). A complete measurement of the photons’ waveform.
20-9.40 (invited) Ali A. Kamli (Department of Physics, Jazan University, Jazan, Saudi Arabia). De-excitation of dipole emitters in finite ordered charge-sheet structures.
40-10.00. (invited) Chun Xiao Zhou, Xing Yu Xu, and Xue Mei Su (College of Physics, Jilin University, People’s Republic of China). Coherence transfer controlled by laser phase under dipole-dipole interaction in a two-atom-cavity system.
00-10.20. (invited) Yu. I. Bogdanov1‘2‘3, N. A. Bogdanova2 (‘institute of Physics and Technology, Russian Academy of Sciences, 2National Research University of Electronic Technology MIET, 3National Research Nuclear University ‘МЕРНГ). The study of Lorenz and Rossler strange attractors by means of quantum theory.
20-10.40. (invited) D. V. Kupriyanov (Санкт–Петербургский государственный политехнический университет) Coherent control of light transport and quantum interface in dense atomic systems.
40-11.00. (invited) Xiao Yuan, Zhu Cao, Xiongfeng Ma (Center for Quantum Information, Institute for Interdisciplinary Information Sciences, Tsinghua University, Beijing, China). Input randomness in the clauser-horne-shimony-holt inequality.
30-11.50. (invited) I. I. Ryabtsev1‘2‘3, V. L. Kurochkin1‘2, A. V. Zverev1, and I. G. Neizvestny1 (1Rzhanov Institute of Semiconductor Physics, 2Novosibirsk State University, 3Russian Quantum Center, Skolkovo). Experimental quantum cryptography with single photons.
50-12.10. (invited) I. I. Ryabtsev1‘2‘3, I. I. Beterov1‘2, D. B. Tretyakov1, E. A. Yakshina1,2,3, V. M. Entin1 (1Rzhanov Institute of Semiconductor Physics, 2Novosibirsk State University, Russian Quantum Center, Skolkovo). Quantum information processing with cold Rydberg atoms.
10-12.30. (invited) S. N. Andrianov1,2,3, S. A. Moiseev2,3 (1Institute for Informatics of ANRT, 2Kazan Quantum Center of KNRTU, 3E.K. Zavoisky Kazan Physical- Technical Institute of the Russian Academy of Sciences) Nanophotonic quantum computer.
(1Russian Quantum Center. Moscow, Russia). Nonlocal action of the photon annihilation operator.
12.45 – 13.00 Yu. I. Bogdanov1‘2‘3, В. I. Bantysh1‘2, V. F. Lukichev1, A. A. Orlikovsky1, I. A. Semenihin1, D. V. Fastovets1‘2, A. S. Holevo4, A. Yu. Chernyavskiy1‘5 (1Institute of Physics and Technology, Russian Academy of Sciences, 2National Research University of Electronic Technology MIET, 3National Research Nuclear University ‘MEPHI’, 4Steklov Mathematical Institute, Russian Academy of Sciences, 5Faculty of Computational Mathematics and Cybernetics, Moscow State University). Modeling of noisy quantum circuits.
00-14.20. (invited) Farid Ablayev, Marat Ablayev (Kazan Federal University. Russia). Quantum hashing via epsilon-universal constructions.
20-14.40. (invited) Alexey Kalachev1‘2,3, Xiwen Zhang3, and Olga Kocharovskaya3 (1Zavoisky Physical-Technical Institute, 2Kazan Federal University, institute for Quantum Studies and Department of Physics, Texas A&M University, College Station). Solid-state Raman quantum memories for light based on control field angular and frequency modulation.
40-14.55 A. V. Vasiliev (Kazan Federal University. Russia). Mathematical model of quantum communication device for quantum hashing.
55-15.10. N. M. Arslanov1, S.A. Moiseev1‘2, Ali A.Kamli3 (1Kazan Quantum Center, Kazan National Research Technical University, 2Kazan Physical-Technical Institute of the Russian Academy of Sciences, 3Department of Physics Jazan University Jazan, Saudi Arabia). Low-loss surface plasmon polariton modes in nanoscale planar waveguide.
10-15.25 Yu. I. Bogdanov1‘2‘3, В. I. Bantysh1‘2, V. F. Lukichev1, A. A. Orlikovsky1 (1Institute of Physics and Technology, Russian Academy of Sciences, 2National Research University of Electronic Technology MIET, 3National Research Nuclear University ‘MEPHI’) Effect of the spectral degree of freedom of a quantum polarizing state on the quality of optical information technologies.
00-16.15 V. L. Ermakov (Kazan State Power Engineering University. Russia). Realization of short-term memory based on nuclear magnetic resonance.
15-16.30 Yu. I. Bogdanov1‘2‘3, G. V. Avosopyants2 (1Institute of Physics and Technology, Russian Academy of Sciences, 2National Research University of Electronic Technology MIET, 3National Research Nuclear University ‘MEPFII’). Application of the root approach to optical quantum state tomography.
30-16.45. К. I. Gerasimov1‘2, S. A. Moiseev1‘2, V. I. Morosov3, and R. B. Zaripov1 (1E. K. Zavoisky Kazan Physical-Technical Institute of the Russian Academy of Sciences, 2Kazan Quantum Center, Kazan National Research Technical University, 3A. E. Arbuzov Institute of Organic and Physical Chemistry Russian Academy of Sciences). Room temperature spin echo memory on high finesse spin frequency comb.

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