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Publications in Math-Net.Ru |
Citations |
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2022 |
1. |
A. S. Zverev, D. R. Nurmuhametov, D. M. Russakov, O. S. Efimova, D. S. Vorobetz, A. V. Kalenskii, A. A. Zvekov, “Nonlinear attenuation of laser radiation by colloidal products of aluminum target ablation in dimethyl sulfoxide”, Kvantovaya Elektronika, 52:9 (2022), 815–822 [Bull. Lebedev Physics Institute, 50:suppl. 1 (2023), S42–S53] |
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2021 |
2. |
A. S. Zverev, A. V. Kalenskii, G. E. Ovchinnikov, A. A. Zvekov, E. V. Galkina, “Nonlinear absorption of laser radiation by aluminium particles in a potassium bromide matrix”, Kvantovaya Elektronika, 51:8 (2021), 712–717 [Quantum Electron., 51:8 (2021), 712–717 ] |
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2020 |
3. |
B. P. Aduev, D. R. Nurmuhametov, A. A. Zvekov, N. V. Nel’ubina, S. A. Sozinov, A. V. Kalenskii, M. V. Ananyeva, E. V. Galkina, “An optoacoustic study and simulation of the optical properties of cyclotrimethylenetrinitramine–ultrafine nickel particle composites”, Optics and Spectroscopy, 128:5 (2020), 659–668 ; Optics and Spectroscopy, 128:5 (2020), 664–673 |
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2019 |
4. |
M. V. Ananyeva, A. A. Zvekov, A. V. Kalenskii, “Modeling of optoacoustic signals in a system with elastic scattering and light absorption”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 45:7 (2019), 45–48 ; Tech. Phys. Lett., 45:4 (2019), 352–355 |
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5. |
B. P. Aduev, D. R. Nurmuhametov, A. A. Zvekov, A. V. Kalenskii, I. Yu. Liskov, “Absorption of pulsed laser radiation by composites based on hexogen and aluminium nanoparticles”, Kvantovaya Elektronika, 49:2 (2019), 141–143 [Quantum Electron., 49:2 (2019), 141–143 ] |
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2018 |
6. |
A. V. Kalenskii, A. A. Zvekov, E. V. Galkina, D. R. Nurmuhametov, “Modeling spectral properties of transparent matrix composites containing core-shell nanoparticles”, Computer Optics, 42:2 (2018), 254–262 |
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7. |
B. P. Aduev, G. M. Belokurov, D. R. Nurmuhametov, I. Yu. Liskov, N. V. Nel’ubina, A. A. Zvekov, A. V. Kalenskii, “Studying the optical properties of hexogen–aluminum composites”, Optics and Spectroscopy, 125:5 (2018), 600–607 ; Optics and Spectroscopy, 125:5 (2018), 632–639 |
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8. |
A. V. Kalenskii, A. A. Zvekov, B. P. Aduev, “The influence of temperature on the spectral dependences of aluminum's optical properties”, Optics and Spectroscopy, 124:4 (2018), 484–491 ; Optics and Spectroscopy, 124:4 (2018), 501–508 |
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2017 |
9. |
A. V. Kalenskii, A. A. Zvekov, D. R. Nurmuhametov, O. N. Bulgakova, “Processing of thermal mirror signals under continuous wave excitation”, Computer Optics, 41:3 (2017), 369–376 |
10. |
A. V. Kalenskii, N. V. Gazenaur, A. A. Zvekov, A. P. Nikitin, “Critical conditions of reaction initiation in the petn during laser heating of light-absorbing nanoparticles”, Fizika Goreniya i Vzryva, 53:2 (2017), 107–117 ; Combustion, Explosion and Shock Waves, 53:2 (2017), 219–228 |
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11. |
A. V. Kalenskii, A. A. Zvekov, M. V. Ananyeva, A. P. Nikitin, B. P. Aduev, “Effect of multiple scattering on the critical density of the energy of the PETN – aluminium compound initiated by a neodymium laser pulse”, Fizika Goreniya i Vzryva, 53:1 (2017), 92–104 ; Combustion, Explosion and Shock Waves, 53:1 (2017), 82–92 |
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12. |
A. V. Kalenskii, A. A. Zvekov, “Temperature dependences of the optical properties of aluminum nanoparticles”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 43:11 (2017), 72–80 ; Tech. Phys. Lett., 43:6 (2017), 535–538 |
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2016 |
13. |
N. V. Nel’ubina, M. P. Pidgirny, O. N. Bulgakova, A. A. Zvekov, A. V. Kalenskii, “Peculiarities of spectral measurements of colored suspensions in thick-walled cuvettes”, Computer Optics, 40:4 (2016), 508–515 |
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14. |
B. P. Aduev, D. R. Nurmuhametov, A. A. Zvekov, A. P. Nikitin, A. V. Kalenskii, “Laser initiation of PETN-based composites with inclusions of ultrafine aluminium particles”, Fizika Goreniya i Vzryva, 52:6 (2016), 104–110 ; Combustion, Explosion and Shock Waves, 52:6 (2016), 713–718 |
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15. |
A. V. Kalenskii, M. V. Ananyeva, A. A. Zvekov, I. Yu. Zykov, “Paradox of small particles in the pulsed laser initiation of explosive decomposition of energetic materials”, Fizika Goreniya i Vzryva, 52:2 (2016), 122–129 ; Combustion, Explosion and Shock Waves, 52:2 (2016), 234–240 |
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16. |
A. A. Zvekov, A. P. Nikitin, E. V. Galkina, A. V. Kalenskii, “The dependence of the critical energy density and hot-spot temperature on the radius of metal nanoparticles in PETN”, Nanosystems: Physics, Chemistry, Mathematics, 7:6 (2016), 1017–1023 |
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2015 |
17. |
A. V. Kalenskii, A. A. Zvekov, M. V. Ananyeva, V. G. Kriger, V. P. Tsipilev, A. V. Razin, “Spatial and temporal characteristics of detonation wave propagation in silver azide”, Fizika Goreniya i Vzryva, 51:3 (2015), 76–81 ; Combustion, Explosion and Shock Waves, 51:3 (2015), 353–357 |
1
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18. |
M. V. Ananyeva, A. V. Kalenskii, A. A. Zvekov, A. P. Nikitin, I. Yu. Zykov, “The optical properties of the cobalt nanoparticles in the transparent condensed matrices”, Nanosystems: Physics, Chemistry, Mathematics, 6:5 (2015), 628–636 |
19. |
V. M. Pugachev, K. A. Datiy, A. S. Valnyukova, M. V. Ananyeva, A. V. Kalenskii, “Synthesis of copper nanoparticles for use in an optical initiation system”, Nanosystems: Physics, Chemistry, Mathematics, 6:3 (2015), 361–365 |
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2014 |
20. |
A. A. Zvekov, A. V. Kalenskii, A. P. Nikitin, B. P. Aduev, “Radiance distribution simulation in a transparent medium with Fresnel boundaries containing aluminum nanoparticles”, Computer Optics, 38:4 (2014), 749–756 |
21. |
B. P. Aduev, M. V. Ananyeva, A. A. Zvekov, A. V. Kalenskii, V. G. Kriger, A. P. Nikitin, “Miro-hotspot model for the laser initiation of explosive decomposition of energetic materials with melting taken into account”, Fizika Goreniya i Vzryva, 50:6 (2014), 92–99 ; Combustion, Explosion and Shock Waves, 50:6 (2014), 704–710 |
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22. |
A. V. Kalenskii, A. A. Zvekov, M. V. Ananyeva, I. Yu. Zykov, V. G. Kriger, B. P. Aduev, “Influence of laser wavelength on the critical energy density for initiation of energetic materials”, Fizika Goreniya i Vzryva, 50:3 (2014), 98–104 ; Combustion, Explosion and Shock Waves, 50:3 (2014), 333–338 |
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23. |
A. V. Kalenskii, M. V. Ananyeva, “Spectral regularities of the critical energy density of the pentaerythriol tetranitrate-aluminum nanosystems initiated by the laser pulse”, Nanosystems: Physics, Chemistry, Mathematics, 5:6 (2014), 803–810 |
24. |
A. A. Zvekov, M. V. Ananyeva, A. V. Kalenskii, A. P. Nikitin, “Regularities of light diffusion in the composite material pentaerythriol tetranitrate – nickel”, Nanosystems: Physics, Chemistry, Mathematics, 5:5 (2014), 685–691 |
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2012 |
25. |
V. G. Kriger, A. V. Kalenskii, A. A. Zvekov, I. Yu. Zykov, B. P. Aduev, “Effect of laser radiation absorption efficiency on the heating temperature of inclusions in transparent media”, Fizika Goreniya i Vzryva, 48:6 (2012), 54–58 ; Combustion, Explosion and Shock Waves, 48:6 (2012), 705–708 |
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26. |
V. G. Kriger, A. V. Kalenskii, A. A. Zvekov, A. P. Borovikova, E. A. Grishaeva, “Determining the width of the reaction wave front in the explosive decomposition of silver azide”, Fizika Goreniya i Vzryva, 48:4 (2012), 129–136 ; Combustion, Explosion and Shock Waves, 48:4 (2012), 488–495 |
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2010 |
27. |
V. G. Kriger, A. V. Kalenskii, A. A. Zvekov, “Determining the onset of mechanical failure of silver azide crystals initiated by a laser pulse”, Fizika Goreniya i Vzryva, 46:1 (2010), 69–72 ; Combustion, Explosion and Shock Waves, 46:1 (2010), 60–63 |
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2009 |
28. |
V. G. Kriger, V. P. Tsipilev, A. V. Kalenskii, A. A. Zvekov, “Explosive decomposition of silver azide single crystals for various diameters of the irradiated area”, Fizika Goreniya i Vzryva, 45:6 (2009), 105–107 ; Combustion, Explosion and Shock Waves, 45:6 (2009), 729–731 |
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2008 |
29. |
V. G. Kriger, A. V. Kalenskii, M. V. Ananyeva, A. P. Borovikova, “Critical initiation-energy density as a function of single-crystal size in explosive decomposition of silver azide”, Fizika Goreniya i Vzryva, 44:2 (2008), 76–78 ; Combustion, Explosion and Shock Waves, 44:2 (2008), 190–192 |
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