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Publications in Math-Net.Ru |
Citations |
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2023 |
1. |
S. O. Slipchenko, A. A. Podoskin, V. V. Zolotarev, L. S. Vavilova, A. Yu. Leshko, M. G. Rastegaeva, I. V. Miroshnikov, I. S. Shashkin, N. A. Pikhtin, T. A. Bagaev, M. A. Ladugin, A. A. Padalitsa, A. A. Marmalyuk, V. A. Simakov, “High power and repetition rate integral laser source (1060 nm) based on laser diode array and 2D multi-element opto-thyristor array as a high-speed current switch”, Kvantovaya Elektronika, 53:1 (2023), 11–16 [Bull. Lebedev Physics Institute, 50:suppl. 5 (2023), S527–S534] |
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2022 |
2. |
S. O. Slipchenko, D. A. Veselov, V. V. Zolotarev, A. V. Lyutetskiy, A. A. Podoskin, Z. N. Sokolova, V. V. Shamakhov, I. S. Shashkin, P. S. Kop'ev, N. A. Pikhtin, “High-power laser diodes based on InGaAs(Ð)/Al(In)GaAs(P)/GaAs heterostructures with low internal optical losses”, Kvantovaya Elektronika, 52:12 (2022), 1152–1165 [Bull. Lebedev Physics Institute, 50:suppl. 4 (2023), S494–S512] |
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3. |
V. V. Zolotarev, A. Rizaev, A. V. Lyutetskiy, S. O. Slipchenko, N. A. Pikhtin, “Lateral waveguide mode selection for the development of single-mode ridge lasers with a distributed Bragg mirror”, Kvantovaya Elektronika, 52:10 (2022), 889–894 [Bull. Lebedev Physics Institute, 50:suppl. 2 (2023), S154–S162] |
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4. |
S. O. Slipchenko, A. A. Podoskin, D. A. Veselov, L. S. Efremov, V. V. Zolotarev, A. E. Kazakova, P. S. Kop'ev, N. A. Pikhtin, “Vertical stacks of pulsed (100 ns) mesa-stripe semiconductor lasers with an ultra-wide (800 μm) aperture emitting kilowatt-level peak power at a wavelength of 1060 nm”, Kvantovaya Elektronika, 52:2 (2022), 171–173 [Quantum Electron., 52:2 (2022), 171–173 ] |
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2020 |
5. |
I. S. Shashkin, A. Yu. Leshko, D. N. Nikolaev, V. V. Shamakhov, D. A. Veselov, N. A. Rudova, K. V. Bakhvalov, V. V. Zolotarev, S. O. Slipchenko, N. A. Pikhtin, P. S. Kop'ev, “Single-mode lasers (1050 nm) of mesa-stripe design based on an AlGaAs/GaAs heterostructure with an ultra-narrow waveguide”, Fizika i Tekhnika Poluprovodnikov, 54:4 (2020), 414–419 ; Semiconductors, 54:4 (2020), 489–494 |
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6. |
I. S. Shashkin, A. Yu. Leshko, D. N. Nikolaev, V. V. Shamakhov, N. A. Rudova, K. V. Bakhvalov, A. V. Lyutetskiy, V. A. Kapitonov, V. V. Zolotarev, S. O. Slipchenko, N. A. Pikhtin, P. S. Kop'ev, “Light characteristics of narrow-stripe high-power semiconductor lasers (1060 nm) based on asymmetric AlGaAs/GaAs heterostructures with a broad waveguide”, Fizika i Tekhnika Poluprovodnikov, 54:4 (2020), 408–413 |
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2018 |
7. |
I. S. Shashkin, O. S. Soboleva, P. S. Gavrina, V. V. Zolotarev, S. O. Slipchenko, N. A. Pikhtin, “All-electric laser beam control based on a quantum-confined heterostructure with an integrated distributed Bragg grating”, Fizika i Tekhnika Poluprovodnikov, 52:12 (2018), 1491–1498 ; Semiconductors, 52:12 (2018), 1595–1602 |
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8. |
Ya. V. Lubyanskiy, A. D. Bondarev, I. P. Sotnikov, N. A. Bert, V. V. Zolotarev, D. A. Kirilenko, K. P. Kotlyar, N. A. Pikhtin, I. S. Tarasov, “Oxygen nitrogen mixture effect on aluminum nitride synthesis by reactive ion plasma deposition”, Fizika i Tekhnika Poluprovodnikov, 52:2 (2018), 196–200 ; Semiconductors, 52:2 (2018), 184–188 |
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2016 |
9. |
S. A. Ivanov, N. V. Nikonorov, A. I. Ignatiev, V. V. Zolotarev, Ya. V. Lubyanskiy, N. A. Pikhtin, I. S. Tarasov, “Narrowing of the emission spectra of high-power laser diodes with a volume Bragg grating recorded in photo-thermo-refractive glass”, Fizika i Tekhnika Poluprovodnikov, 50:6 (2016), 834–838 ; Semiconductors, 50:6 (2016), 819–823 |
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2015 |
10. |
V. V. Zolotarev, A. Yu. Leshko, N. A. Pikhtin, S. O. Slipchenko, Z. N. Sokolova, Ya. V. Lubyanskiy, N. V. Voronkova, I. S. Tarasov, “Integrated high-order surface diffraction gratings for diode lasers”, Kvantovaya Elektronika, 45:12 (2015), 1091–1097 [Quantum Electron., 45:12 (2015), 1091–1097 ] |
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2014 |
11. |
V. V. Zolotarev, A. Yu. Leshko, N. A. Pikhtin, A. V. Lyutetskiy, S. O. Slipchenko, K. V. Bakhvalov, Ya. V. Lubyanskiy, M. G. Rastegaeva, I. S. Tarasov, “Spectral characteristics of multimode semiconductor lasers with a high-order surface diffraction grating”, Kvantovaya Elektronika, 44:10 (2014), 907–911 [Quantum Electron., 44:10 (2014), 907–911 ] |
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