Search Results - "Bannik, O I"

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  1. 1
    Secure polarization-independent subcarrier quantum key distribution in optical fiber channel using BB84 protocol with a strong reference

    Secure polarization-independent subcarrier quantum key distribution in optical fiber channel using BB84 protocol with a strong reference by Gleim, A V, Egorov, V I, Nazarov, Yu V, Smirnov, S V, Chistyakov, V V, Bannik, O I, Anisimov, A A, Kynev, S M, Ivanova, A E, Collins, R J, Kozlov, S A, Buller, G S

    Published in Optics express (08-02-2016)
    “…A quantum key distribution system based on the subcarrier wave modulation method has been demonstrated which employs the BB84 protocol with a strong reference…”
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  2. 2
    Subcarrier Wave Quantum Key Distribution in Telecommunication Network with Bitrate 800 kbit/s

    Subcarrier Wave Quantum Key Distribution in Telecommunication Network with Bitrate 800 kbit/s by Gleim, A.V., Nazarov, Yu.V., Egorov, V.I., Smirnov, S.V., Bannik, O.I., Chistyakov, V.V., Kynev, S.M., Anisimov, A.A., Kozlov, S.A., Vasiliev, V.N.

    Published in EPJ Web of conferences (01-01-2015)
    “…In the course of work on creating the first quantum communication network in Russia we demonstrated quantum key distribution in metropolitan optical network…”
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    Journal Article Conference Proceeding
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  3. 3
    Using a Heterodyne Detection Scheme in a Subcarrier Wave Quantum Communication System

    Using a Heterodyne Detection Scheme in a Subcarrier Wave Quantum Communication System by Mel’nik, K. S., Arslanov, N. M., Bannik, O. I., Gilyazov, L. R., Egorov, V. I., Gleim, A. V., Moiseev, S. A.

    “…The single photon detectors currently used in quantum communication schemes impose considerable restrictions on signal registration and dark count rates,…”
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  4. 4
    Using a Heterodyne Detection Scheme in a Subcarrier Wave Quantum Communication System

    Using a Heterodyne Detection Scheme in a Subcarrier Wave Quantum Communication System by Melnik, K. S, Arslanov, N. M, Bannik, O. I, Gilyazov, L. R, Egorov, V. I, Gleim, A. V, Moiseev, S. A

    Published 04-10-2019
    “…Bulletin of the Russian Academy of Sciences Physics 82(8):1038-1041 August 2018 The single photon detectors currently used in quantum communication schemes…”
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  5. 5
    Statistical Evaluation of a Physical Random Number Generator

    Statistical Evaluation of a Physical Random Number Generator by Perminov, N. S., Bannik, O. I., Giliazov, L. R., Melnik, K. S., Tarankova, D. Yu

    “…Robust statistical analysis of physical random number generators is studied. An estimate of randomness based on ranged amplitudes is proposed, complementing an…”
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  6. 6
    Polarization insensitive 100 MHz clock subcarrier quantum key distribution over a 45 dB loss optical fiber channel

    Polarization insensitive 100 MHz clock subcarrier quantum key distribution over a 45 dB loss optical fiber channel by Gleim, A. V., Egorov, V. I., Nazarov, Yu V., Smirnov, S. V., Chistyakov, V. V., Bannik, O. I., Anisimov, A. A., Kynev, S. M., Collins, R. J., Kozlov, S. A., Buller, G. S.

    “…We experimentally demonstrate quantum key distribution at 28 bit/s rate in a telecommunications fiber channel with 45 dB loss using a subcarrier wave approach…”
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  7. 7
    RCF-defense for quantum randomness

    RCF-defense for quantum randomness by Perminov, N. S, Bannik, O. I, Tarankova, D. Yu, Nigmatullin, R. R

    Published 09-10-2018
    “…Authors develop new nonparametric methods for verification and monitoring for quantum randomness based on the ranged correlation function (RCF) and a sequence…”
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