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Publications in Math-Net.Ru |
Citations |
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2023 |
| 1. |
V. R. Baryshev, E. D. Egorova, N. S. Ginzburg, E. R. Kocharovskaya, A. M. Malkin, V. Yu. Zaslavskii, S. V. Morozov, A. S. Sergeev, “Development of a single-mode DFB heterolaser with inclined radiation output”, Fizika i Tekhnika Poluprovodnikov, 57:5 (2023), 362–368   |
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2022 |
| 2. |
E. R. Kocharovskaya, N. S. Ginzburg, A. S. Sergeev, A. M. Malkin, V. Yu. Zaslavskii, “Dynamics of a wide-aperture heterolasers with a phase shift in a Bragg structures”, Fizika i Tekhnika Poluprovodnikov, 56:8 (2022), 788–793 |
| 3. |
A. N. Leont'ev, R. M. Rozental', N. S. Ginzburg, I. V. Zotova, A. M. Malkin, A. S. Sergeev, “Excitation of high cyclotron harmonics in a high-current relativistic gyrotron in the frequency multiplication regime”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 48:24 (2022), 11–14 |
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2021 |
| 4. |
N. S. Ginzburg, A. S. Sergeev, E. R. Kocharovskaya, A. M. Malkin, V. Yu. Zaslavskii, “Increasing the power and radiation coherence of wide-aperture heterolasers by optimizing the width of the Bragg grating”, Fizika i Tekhnika Poluprovodnikov, 55:8 (2021), 659–664 ; Semiconductors, 55:8 (2021), 672–677 |
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2020 |
| 5. |
N. S. Ginzburg, A. S. Sergeev, E. R. Kocharovskaya, A. M. Malkin, E. D. Egorova, V. Yu. Zaslavskii, “Diffraction-mode selection in heterolasers with planar Bragg structures”, Fizika i Tekhnika Poluprovodnikov, 54:9 (2020), 974–979 ; Semiconductors, 54:9 (2020), 1161–1165 |
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2019 |
| 6. |
N. S. Ginzburg, N. Yu. Peskov, V. Yu. Zaslavskii, E. R. Kocharovskaya, A. M. Malkin, A. S. Sergeev, V. R. Baryshev, M. D. Proyavin, D. I. Sobolev, “2D Bragg resonators based on planar dielectric waveguides (from theory to model-based testing)”, Fizika i Tekhnika Poluprovodnikov, 53:10 (2019), 1315–1320 ; Semiconductors, 53:10 (2019), 1282–1286 |
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| 7. |
V. R. Baryshev, N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, “Semiconductor heterolasers with double-mirror two-dimensional Bragg resonators”, Fizika i Tekhnika Poluprovodnikov, 53:9 (2019), 1172–1177 ; Semiconductors, 53:9 (2019), 1148–1153 |
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2017 |
| 8. |
N. S. Ginzburg, A. M. Malkin, I. V. Zheleznov, A. S. Sergeev, E. R. Kocharovskaya, “Amplification of short-wave radiation based on the resistive instability of a relativistic electron beam (Quasi-optical theory)”, Zhurnal Tekhnicheskoi Fiziki, 87:8 (2017), 1230–1237 ; Tech. Phys., 62:8 (2017), 1242–1249 |
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| 9. |
N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, A. S. Sergeev, “Generation of high-power Cherenkov superradiance pulses using 2D periodic slow-wave structures based on oversized cylindrical waveguides”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 43:16 (2017), 61–69 ; Tech. Phys. Lett., 43:8 (2017), 756–759 |
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2016 |
| 10. |
N. S. Ginzburg, A. M. Malkin, I. V. Zheleznov, A. S. Sergeev, E. R. Kocharovskaya, “Quasi-optical theory of amplification of surface waves propagating above corrugated structures by a relativistic electron beam (impedance approximation)”, Zhurnal Tekhnicheskoi Fiziki, 86:11 (2016), 6–15 ; Tech. Phys., 61:11 (2016), 1609–1618 |
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2014 |
| 11. |
N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, A. S. Sergeev, N. Yu. Peskov, “Generation of a spatially coherent field structure in free-electron masers with 2D distributed feedback”, Zhurnal Tekhnicheskoi Fiziki, 84:2 (2014), 98–105 ; Tech. Phys., 59:2 (2014), 250–257 |
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| 12. |
N. S. Ginzburg, A. A. Golovanov, I. V. Zotova, A. M. Malkin, “Frequency-angle characteristics of superradiance pulses generated by ultrarelativistic electron bunches propagating in an undulator field”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 40:2 (2014), 52–60 ; Tech. Phys. Lett., 40:1 (2014), 72–76 |
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2013 |
| 13. |
N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, A. S. Sergeev, “Quasi-optical theory of coaxial and cylindrical relativistic surface-wave oscillators”, Zhurnal Tekhnicheskoi Fiziki, 83:2 (2013), 119–128 ; Tech. Phys., 58:2 (2013), 267–276 |
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| 14. |
N. S. Ginzburg, A. M. Malkin, I. V. Zheleznov, A. S. Sergeev, E. R. Kocharovskaya, “Relativistic electron beam induced amplification of surface wave propagating over a corrugated metal surface”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 39:6 (2013), 50–59 ; Tech. Phys. Lett., 39:3 (2013), 294–298 |
1
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| 15. |
N. S. Ginzburg, A. M. Malkin, I. V. Zheleznov, A. S. Sergeev, I. V. Zotova, “Quasi-optical theory of radiation amplification by electron flow above resistive metal surface”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 39:2 (2013), 52–60 ; Tech. Phys. Lett., 39:1 (2013), 123–126 |
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2012 |
| 16. |
N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, A. S. Sergeev, “Relativistic surface-wave oscillators with 1D and 2D periodic structures”, Zhurnal Tekhnicheskoi Fiziki, 82:12 (2012), 84–97 ; Tech. Phys., 57:12 (2012), 1692–1705 |
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| 17. |
N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, N. Yu. Peskov, A. S. Sergeev, “Narrow-band terahertz Bragg reflectors based on coupling of propagating and quasi-critical waves”, Zhurnal Tekhnicheskoi Fiziki, 82:3 (2012), 104–110 ; Tech. Phys., 57:3 (2012), 415–421 |
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| 18. |
N. S. Ginzburg, I. V. Zotova, A. M. Malkin, A. S. Sergeev, V. Yu. Zaslavskii, I. V. Zheleznov, “Terahertz superradiance of an extended electron bunch propagating over a corrugated surface”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 38:20 (2012), 78–87 ; Tech. Phys. Lett., 38:10 (2012), 951–954 |
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| 19. |
A. V. Arzhannikov, N. S. Ginzburg, V. Yu. Zaslavskii, P. V. Kalinin, A. M. Malkin, N. Yu. Peskov, A. S. Sergeev, S. L. Sinitskii, M. Thumm, “Experimental testing of short-wave variable-frequency Bragg reflectors based on coupling of propagating and quasi-critical waves”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 38:13 (2012), 8–16 ; Tech. Phys. Lett., 38:7 (2012), 600–603 |
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| 20. |
N. S. Ginzburg, I. V. Zotova, A. M. Malkin, V. P. Tarakanov, “Using the Lorentz transformation to simulate terahertz-range superradiance of picosecond electron bunches moving in an undulator field”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 38:11 (2012), 69–77 ; Tech. Phys. Lett., 38:6 (2012), 531–534 |
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| 21. |
N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, A. S. Sergeev, “Relativistic surface-wave generators based on two-dimensional periodic structures”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 38:4 (2012), 66–75 ; Tech. Phys. Lett., 38:2 (2012), 188–192 |
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2011 |
| 22. |
N. S. Ginzburg, V. Yu. Zaslavskii, E. V. Ilyakov, I. S. Kulagin, A. M. Malkin, N. Yu. Peskov, A. S. Sergeev, “Powerful Cherenkov oscillators with 2D distributed feedback”, Zhurnal Tekhnicheskoi Fiziki, 81:12 (2011), 93–103 ; Tech. Phys., 56:12 (2011), 1791–1801 |
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| 23. |
N. S. Ginzburg, V. Yu. Zaslavskii, I. V. Zotova, A. M. Malkin, N. Yu. Peskov, A. S. Sergeev, “Nonlinear dynamics of free electron terahertz lasers with bragg mirrors based on coupling of traveling and quasi-critical waves”, Zhurnal Tekhnicheskoi Fiziki, 81:2 (2011), 1–8 ; Tech. Phys., 56:2 (2011), 155–163 |
| 24. |
N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, A. S. Sergeev, “Quasi-optical model of relativistic surface-wave generators for millimeter and submillimeter range”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 37:13 (2011), 31–39 ; Tech. Phys. Lett., 37:7 (2011), 605–609 |
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2010 |
| 25. |
N. S. Ginzburg, V. Yu. Zaslavskii, I. V. Zotova, A. M. Malkin, N. Yu. Peskov, A. S. Sergeev, “Terahertz free-electron lasers with bragg structures based on the coupling between traveling and quasicritical waves”, Pis'ma v Zh. Èksper. Teoret. Fiz., 91:6 (2010), 286–290 ; JETP Letters, 91:6 (2010), 266–270   |
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2009 |
| 26. |
V. R. Baryshev, N. S. Ginzburg, A. M. Malkin, A. S. Sergeev, “Two-dimensional distributed feedback lasers with excitation of TE waves in the active medium”, Kvantovaya Elektronika, 39:12 (2009), 1159–1164 [Quantum Electron., 39:12 (2009), 1159–1164 ] |
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| 27. |
V. R. Baryshev, N. S. Ginzburg, V. Yu. Zaslavskii, A. M. Malkin, A. S. Sergeev, M. Thumm, “Mode selection in two-dimensional Bragg resonators based on planar dielectric waveguides”, Kvantovaya Elektronika, 39:5 (2009), 463–468 [Quantum Electron., 39:5 (2009), 463–468 ] |
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