|
|
Publications in Math-Net.Ru |
Citations |
|
2023 |
1. |
M. A. Gorbashova, D. D. Starykh, O. E. Nanii, V. N. Treshchikov, I. P. Chebykin, “Optimization of the period of equalizer arrangement in multi-span fiber-optic lines”, Kvantovaya Elektronika, 53:6 (2023), 503–509 [Bull. Lebedev Physics Institute, 50:suppl. 10 (2023), S1146–S1155] |
2. |
A. Yu. Igumenov, S. N. Lukinykh, O. E. Nanii, V. N. Treshchikov, “All-optical gain control of remote optically pumped amplifier”, Kvantovaya Elektronika, 53:6 (2023), 484–489 [Bull. Lebedev Physics Institute, 50:suppl. 10 (2023), S1120–S1127] |
3. |
M. O. Zhulidova, O. E. Nanii, I. I. Shikhaliev, V. N. Treshchikov, “Relationship between SMBS threshold and SMBS gain”, Kvantovaya Elektronika, 53:5 (2023), 436–440 [Bull. Lebedev Physics Institute, 50:suppl. 9 (2023), S1059–S1065] |
|
2022 |
4. |
V. A. Konyshev, A. V. Leonov, O. E. Nanii, D. D. Starykh, V. N. Treshchikov, R. R. Ubaydullaev, “Trends and prospects for the development of fiber-optic information transmission systems”, Kvantovaya Elektronika, 52:12 (2022), 1102–1113 [Bull. Lebedev Physics Institute, 50:suppl. 4 (2023), S435–S450] |
8
|
5. |
D. D. Starykh, L. A. Samodelkin, O. E. Nanii, V. N. Treshchikov, “Impact of amplitude-modulated channels on amplitude-phase channels with coherent detection in distributed-gain fibre-optic communication lines”, Kvantovaya Elektronika, 52:10 (2022), 934–938 [Bull. Lebedev Physics Institute, 50:suppl. 2 (2023), S220–S226] |
|
2021 |
6. |
D. M. Bengalskii, D. R. Kharasov, È. A. Fomiryakov, S. P. Nikitin, O. E. Nanii, V. N. Treshchikov, “Effect of strong local stretching of sensing fibre on the operation of a phase-sensitive optical time-domain reflectometer”, Kvantovaya Elektronika, 51:2 (2021), 175–183 [Quantum Electron., 51:2 (2021), 175–183 ] |
5
|
|
2020 |
7. |
T. O. Lukashova, O. E. Nanii, S. P. Nikitin, V. N. Treshchikov, “Measurement accuracy and spatial resolution of a distributed temperature sensor based on a two-pulse differential coherent reflectometer”, Kvantovaya Elektronika, 50:9 (2020), 882–887 [Quantum Electron., 50:9 (2020), 882–887 ] |
8
|
8. |
D. R. Kharasov, D. M. Bengalskii, M. Yu. Vyatkin, O. E. Nanii, E. A. Fomiryakov, S. P. Nikitin, S. M. Popov, Yu. K. Chamorovsky, V. N. Treshchikov, “Extending the operation range of a phase-sensitive optical time-domain reflectometer by using fibre with chirped Bragg gratings”, Kvantovaya Elektronika, 50:5 (2020), 510–513 [Quantum Electron., 50:5 (2020), 510–513 ] |
13
|
|
2019 |
9. |
V. A. Konyshev, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Design principles for modern fibre-optic communication lines”, Kvantovaya Elektronika, 49:12 (2019), 1149–1153 [Quantum Electron., 49:12 (2019), 1149–1153 ] |
3
|
10. |
V. A. Konyshev, S. N. Lukinykh, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Effect of a magnetic field on polarisation of light in an optical fibre with a random distribution of linear birefringence”, Kvantovaya Elektronika, 49:8 (2019), 773–776 [Quantum Electron., 49:8 (2019), 773–776 ] |
6
|
|
2018 |
11. |
D. D. Starykh, I. I. Shikhaliev, V. A. Konyshev, O. E. Nanii, V. N. Treshchikov, R. R. Ubaydullaev, D. R. Kharasov, “Experimental investigation of nonlinear operation mode of a DP-QPSK 100G link with co-propagating-pump Raman amplification”, Kvantovaya Elektronika, 48:8 (2018), 767–772 [Quantum Electron., 48:8 (2018), 767–772 ] |
3
|
|
2017 |
12. |
A. E. Zhitelev, V. A. Konyshev, S. N. Lukinykh, O. E. Nanii, V. N. Treshchikov, R. R. Ubaydullaev, “Nonlinear distortions as nonlinear noise in coherent fibre-optic communication lines”, Kvantovaya Elektronika, 47:12 (2017), 1135–1139 [Quantum Electron., 47:12 (2017), 1135–1139 ] |
10
|
13. |
I. I. Shikhaliev, V. V. Gainov, A. N. Dorozhkin, O. E. Nanii, V. A. Konyshev, V. N. Treshchikov, “A simple method of measuring the effective SRS coefficient in single-mode optical fibres and its applicability limits”, Kvantovaya Elektronika, 47:10 (2017), 906–910 [Quantum Electron., 47:10 (2017), 906–910 ] |
2
|
14. |
V. A. Konyshev, A. V. Leonov, O. E. Nanii, A. G. Novikov, P. V. Skvortsov, V. N. Treshchikov, R. R. Ubaydullaev, “Experimental study and numerical modelling of a 3 × 100G DP-QPSK superchannel”, Kvantovaya Elektronika, 47:8 (2017), 767–772 [Quantum Electron., 47:8 (2017), 767–772 ] |
2
|
|
2016 |
15. |
V. A. Konyshev, A. V. Leonov, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Design of high-bit-rate coherent communication links”, Kvantovaya Elektronika, 46:12 (2016), 1121–1128 [Quantum Electron., 46:12 (2016), 1121–1128 ] |
13
|
16. |
V. A. Konyshev, A. V. Leonov, O. E. Nanii, A. G. Novikov, I. I. Shikhaliev, V. N. Treshchikov, R. R. Ubaydullaev, “Optical signal quality improvement due to nonlinear interaction between spectral channels”, Kvantovaya Elektronika, 46:10 (2016), 924–929 [Quantum Electron., 46:10 (2016), 924–929 ] |
17. |
A. I. Kuzmenkov, S. N. Lukinykh, O. E. Nanii, A. I. Odintsov, A. P. Smirnov, A. I. Fedoseev, V. N. Treshchikov, “Performance characteristics and output power stability of a multichannel fibre laser”, Kvantovaya Elektronika, 46:9 (2016), 795–800 [Quantum Electron., 46:9 (2016), 795–800 ] |
4
|
|
2015 |
18. |
V. A. Konyshev, O. E. Nanii, V. N. Treshchikov, R. R. Ubaydullaev, “Simple receiver with soft decision forward error correction for binary amplitude modulation”, Kvantovaya Elektronika, 45:6 (2015), 585–589 [Quantum Electron., 45:6 (2015), 585–589 ] |
19. |
O. V. Yushko, O. E. Nanii, A. A. Redyuk, V. N. Treshchikov, M. P. Fedoruk, “Numerical simulation of current experimental 100 Gbit s<sup>-1</sup> DWDM communication lines”, Kvantovaya Elektronika, 45:1 (2015), 75–77 [Quantum Electron., 45:1 (2015), 75–77 ] |
18
|
20. |
N. V. Gurkin, V. A. Konyshev, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Dependence of the bit error rate on the signal power and length of a single-channel coherent single-span communication line (100 Gbit s<sup>-1</sup>) with polarisation division multiplexing”, Kvantovaya Elektronika, 45:1 (2015), 69–74 [Quantum Electron., 45:1 (2015), 69–74 ] |
10
|
|
2013 |
21. |
N. V. Gurkin, O. E. Nanii, A. G. Novikov, S. O. Plaksin, V. N. Treshchikov, R. R. Ubaydullaev, “Nonlinear interference noise in 100-Gbit s<sup>-1</sup> communication lines with the DP-QPSK modulation format”, Kvantovaya Elektronika, 43:6 (2013), 550–553 [Quantum Electron., 43:6 (2013), 550–553 ] |
23
|
22. |
N. V. Gurkin, Yu. A. Kapin, O. E. Nanii, A. G. Novikov, V. N. Pavlov, S. O. Plaksin, A. Yu. Plotskii, V. N. Treshchikov, “Modelling the transmission of a 40-Gbit s<sup>-1</sup> NRZ-ADPSK signal in 50-GHz networks”, Kvantovaya Elektronika, 43:6 (2013), 546–549 [Quantum Electron., 43:6 (2013), 546–549 ] |
12
|
|
2012 |
23. |
Yu. A. Kapin, O. E. Nanii, A. G. Novikov, V. N. Pavlov, A. Yu. Plotskii, V. N. Treshchikov, “Direct experimental measurement of SRS-induced spectral tilt in multichannel multispan communication systems”, Kvantovaya Elektronika, 42:9 (2012), 818–821 [Quantum Electron., 42:9 (2012), 818–821 ] |
5
|
|
2011 |
24. |
A. A. Redyuk, O. V. Shtyrina, O. E. Nanii, Yu. A. Kapin, E. A. Sachalin, É. B. Titov, V. N. Treshchikov, A. A. Yaryshkin, M. P. Fedoruk, “Mathematical simulation of an experimental prototype of a high-speed nonreturn-to-zero differential phase-shift-keying fibre-optic communication system”, Kvantovaya Elektronika, 41:10 (2011), 929–933 [Quantum Electron., 41:10 (2011), 929–933 ] |
8
|
|
|
|
2022 |
25. |
D. V. Gorbatov, A. N. Dorozhkin, A. Yu. Igumenov, V. A. Konyshev, T. O. Lukinykh, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Polarisation change of light during a lightning strike: isotropic zones of an anisotropic optical fibre”, Kvantovaya Elektronika, 52:10 (2022), 923–928 [Bull. Lebedev Physics Institute, 50:suppl. 2 (2023), S204–S212] |
1
|
26. |
D. V. Gorbatov, V. A. Konyshev, T. O. Lukinykh, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Effect of anisotropy of a single-mode fibre on lightning-induced rotation of polarisation of a light signal in an optical ground wire”, Kvantovaya Elektronika, 52:1 (2022), 87–93 [Quantum Electron., 52:1 (2022), 87–93 ] |
3
|
|
Organisations |
|
|
|
|