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Publications in Math-Net.Ru |
Citations |
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2023 |
1. |
G. E. Val'yano, T. I. Borodina, M. M. Malikov, O. V. Sazhnova, “Laser ablation of a titanium target in water silver nitrate solution”, Kvantovaya Elektronika, 53:6 (2023), 464–468 [Bull. Lebedev Physics Institute, 50:suppl. 10 (2023), S1100–S1107] |
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2022 |
2. |
T. I. Borodina, G. E. Val'yano, M. M. Malikov, “Specificity of micro- and nanoproducts of titanium laser ablation in pure water”, Kvantovaya Elektronika, 52:6 (2022), 587–592 [Quantum Electron., 52:6 (2022), 587–592 ] |
2
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3. |
M. M. Malikov, “Kinetics and model of metal vapor lasers excited by an inductive pulsed-periodic high-freaquency discharge”, TVT, 60:5 (2022), 644–656 ; High Temperature, 60:5 (2022), 587–598 |
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2021 |
4. |
M. M. Malikov, G. E. Val'yano, T. I. Borodina, “Deposition of silver on the surface of microparticles of zirconium and molybdenum oxides during their synthesis by laser ablation in liquid”, Kvantovaya Elektronika, 51:6 (2021), 544–548 [Quantum Electron., 51:6 (2021), 544–548 ] |
2
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2017 |
5. |
V. T. Karpukhin, M. M. Malikov, M. V. Protasov, T. I. Borodina, G. E. Val'yano, O. A. Gololobova, “Composition, morphology characteristics and optical properties of molybdenum oxide nanostructures synthesized by the laser ablation method in liquid”, TVT, 55:6 (2017), 700–703 ; High Temperature, 55:6 (2017), 870–872 |
2
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6. |
V. M. Batenin, M. A. Kazaryan, V. T. Karpukhin, M. M. Malikov, “Copper vapor laser pumped by pulse-periodic high-frequency discharge”, High Temperature, 55:5 (2017), 678–684 |
5
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2015 |
7. |
V. T. Karpukhin, M. M. Malikov, T. I. Borodina, G. E. Val'yano, O. A. Gololobova, D. A. Strikanov, “Formation of hollow micro- and nanostructures of zirconia by laser ablation of metal in liquid”, TVT, 53:1 (2015), 98–104 ; High Temperature, 53:1 (2015), 93–98 |
10
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2014 |
8. |
T. I. Borodina, G. E. Val'yano, O. A. Gololobova, V. T. Karpukhin, M. M. Malikov, D. A. Strikanov, “Optical, structural and morphological properties of zirconia nanoparticles prepared by laser ablation in liquids”, Kvantovaya Elektronika, 44:9 (2014), 845–851 [Quantum Electron., 44:9 (2014), 845–851 ] |
9. |
L. B. Director, V. T. Karpukhin, M. M. Malikov, “Thermophysical Model of Metal-Vapor Lasers with Discharge Chambers of Cylindrical and Coaxial Geometry”, TVT, 52:3 (2014), 442–449 ; High Temperature, 52:3 (2014), 430–437 |
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2013 |
10. |
T. I. Borodina, G. E. Val'yano, O. A. Gololobova, V. T. Karpukhin, M. M. Malikov, D. A. Strikanov, “Influence of UV and visible laser light on the structure and composition of layered organic – inorganic zinc and copper nanocomposites”, Kvantovaya Elektronika, 43:6 (2013), 563–566 [Quantum Electron., 43:6 (2013), 563–566 ] |
5
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11. |
V. T. Karpukhin, M. M. Malikov, T. I. Borodina, G. E. Val'yano, O. A. Gololobova, “Synthesis of a layered organo-inorganic copper nanocomposite by laser ablation in liquid media”, TVT, 51:2 (2013), 311–314 ; High Temperature, 51:2 (2013), 277–280 |
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2012 |
12. |
V. T. Karpukhin, M. M. Malikov, T. I. Borodina, G. E. Val'yano, O. A. Gololobova, “The features of the synthesis of $\mathrm{ZnO}$ nanostructures by laser ablation of zinc in water-surfactant solutions”, TVT, 50:3 (2012), 392–400 ; High Temperature, 50:3 (2012), 366–373 |
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2011 |
13. |
V. T. Karpukhin, M. M. Malikov, T. I. Borodina, G. E. Val'yano, O. A. Gololobova, “Investigation of the Characteristics of a Colloidal Solution and Its Solid Phase Obtained through Ablation of Zinc in Water by High-Power Radiation from a Copper Vapor Laser”, TVT, 49:5 (2011), 701–706 ; High Temperature, 49:5 (2011), 679–684 |
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2009 |
14. |
V. M. Batenin, V. T. Karpukhin, N. M. Lepekhin, N. A. Lyabin, M. M. Malikov, Yu. S. Priseko, V. G. Filippov, A. D. Chursin, “Output energy parameters of a KULON-10Cu-UV laser”, Kvantovaya Elektronika, 39:5 (2009), 405–409 [Quantum Electron., 39:5 (2009), 405–409 ] |
4
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2008 |
15. |
V. T. Karpukhin, M. M. Malikov, “Experimental study of multipass copper vapour laser amplifiers”, Kvantovaya Elektronika, 38:12 (2008), 1121–1126 [Quantum Electron., 38:12 (2008), 1121–1126 ] |
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2007 |
16. |
N. M. Lepekhin, Yu. S. Priseko, V. G. Filippov, V. T. Karpukhin, M. M. Malikov, N. A. Lyabin, A. D. Chursin, “Energy characteristics of radiation from a KULON-10 Cu-M self-heated technological laser”, Kvantovaya Elektronika, 37:8 (2007), 765–769 [Quantum Electron., 37:8 (2007), 765–769 ] |
1
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2005 |
17. |
V. M. Batenin, V. T. Karpukhin, M. M. Malikov, “Efficient sum-frequency and second harmonic generation in a two-pass copper vapour laser amplifier”, Kvantovaya Elektronika, 35:9 (2005), 844–848 [Quantum Electron., 35:9 (2005), 844–848 ] |
5
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2004 |
18. |
V. T. Karpukhin, I. I. Klimovskii, M. M. Malikov, V. Ya. Mendeleyev, S. N. Skovorod'ko, “Features of image colouring in a projection microscopebased on a copper vapour laser with an unstable resonatorand a Glan prism”, Kvantovaya Elektronika, 34:6 (2004), 583–588 [Quantum Electron., 34:6 (2004), 583–588 ] |
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2003 |
19. |
V. T. Karpukhin, M. M. Malikov, “UV lasing in a multipass copper vapour amplifier – nonlinear crystal system”, Kvantovaya Elektronika, 33:5 (2003), 416–418 [Quantum Electron., 33:5 (2003), 416–418 ] |
20. |
V. T. Karpukhin, M. M. Malikov, “Self-terminated laser amplifier with an enhanced peak output pulse power”, Kvantovaya Elektronika, 33:5 (2003), 411–415 [Quantum Electron., 33:5 (2003), 411–415 ] |
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1998 |
21. |
V. T. Karpukhin, Yu. B. Konev, M. M. Malikov, “Investigation of the summation of copper-vapour laser frequencies”, Kvantovaya Elektronika, 25:9 (1998), 809–813 [Quantum Electron., 28:9 (1998), 788–792 ] |
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1990 |
22. |
L. B. Direktor, M. M. Malikov, V. A. Fomin, “Laser based on copper vapor with a coaxial discharge chamber”, TVT, 28:3 (1990), 427–432 ; High Temperature, 28:3 (1990), 313–318 |
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1987 |
23. |
L. B. Director, M. M. Malikov, V. A. Fomin, “EMISSION REABSORPTION IN THE HETEROGENEOUS LOW-TEMPERATURE PLASMA”, Zhurnal Tekhnicheskoi Fiziki, 57:1 (1987), 28–36 |
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1985 |
24. |
M. M. Malikov, V. A. Fomin, A. L. Shevchenko, É. É. Shpil'rain, “Self-pumping of the working gas through an electric-discharge metal-vapor laser”, TVT, 23:5 (1985), 966–971 ; High Temperature, 23:5 (1985), 771–776 |
25. |
A. V. Karasev, I. Ya. Polishchuk, M. M. Malikov, V. A. Fomin, “О переносе резонансного излучения”, TVT, 23:4 (1985), 807 |
26. |
L. B. Direktor, V. V. Kachalov, M. M. Malikov, S. N. Skovorod'ko, V. A. Fomin, “К вопросу о применении коаксиальных разрядных камер для ОКГ на парах металлов”, TVT, 23:1 (1985), 193–195 |
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1983 |
27. |
L. B. Direktor, M. M. Malikov, S. N. Skovorod'ko, V. A. Fomin, E. M. Shelkov, É. É. Shpil'rain, “Thermo-physical characteristics of co-axial high-power laser chambers”, TVT, 21:1 (1983), 162–166 ; High Temperature, 21:1 (1983), 146–150 |
1
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1982 |
28. |
L. A. Vasil'ev, V. E. Gerts, L. B. Direktor, V. V. Kachalov, M. M. Malikov, V. Ya. Mendeleev, G. E. Ratnikov, V. M. Ryazanskiĭ, G. F. Sokol, A. V. Sokolov, L. V. Tatarintsev, V. A. Fomin, É. É. Shpil'rain, “Лазер на парах меди с магнитным полем”, TVT, 20:5 (1982), 995–997 |
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1979 |
29. |
M. M. Malikov, “Ионизационная неустойчивость несамостоятельного разряда в магнитном поле”, TVT, 17:2 (1979), 431–433 |
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1978 |
30. |
G. I. Stotskii, R. S. Ivanov, N. M. Korolev, M. M. Malikov, “О скорости взаимодействия цезия и $\mathrm{CO}_2$ в газовой смеси быстропроточного лазера”, TVT, 16:3 (1978), 661–662 |
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1977 |
31. |
R. S. Ivanov, V. T. Karpukhin, N. M. Korolev, M. M. Malikov, A. V. Nedospasov, G. I. Stotskii, “Экспериментальное исследование электроразрядного лазера со сверхзвуковым течением газа в магнитном поле”, TVT, 15:3 (1977), 635–642 |
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1976 |
32. |
R. S. Ivanov, N. M. Korolev, M. M. Malikov, G. I. Stotskii, “Influence of a $\rm CO_2$ molecular addition on parameters of a $\rm He - \rm Xe$ plasma in a magnetic-field”, TVT, 14:3 (1976), 641–643 ; High Temperature, 14:3 (1976), 567–568 |
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1975 |
33. |
V. S. Golubev, M. M. Malikov, “Ionization wave of a glow discharge in a turbulent air flow”, TVT, 13:3 (1975), 650–652 ; High Temperature, 13:3 (1975), 587–590 |
34. |
B. K. Zuev, R. S. Ivanov, V. T. Karpukhin, N. M. Korolev, M. M. Malikov, A. V. Nedospasov, G. I. Stotskii, E. M. Shelkov, “Cesium-seeded $\mathrm{CO}_2$ electric-discharge laser”, TVT, 13:1 (1975), 223–224 ; High Temperature, 13:1 (1975), 206–207 |
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1974 |
35. |
V. S. Golubev, M. M. Malikov, “Волна ионизации в турбулентном потоке газа”, TVT, 12:5 (1974), 947–951 |
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1972 |
36. |
B. M. Evdokimov, M. M. Malikov, “Изучение механизма движения неоднородностей в неравновесной плазме в магнитном поле”, TVT, 10:2 (1972), 227–231 |
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1970 |
37. |
V. S. Golubev, M. M. Malikov, A. V. Nedospasov, “Pulsed model of a magnetohydrodynamic generator having a strongly nonequilibrium plasma”, TVT, 8:6 (1970), 1265–1273 ; High Temperature, 8:6 (1970), 1185–1192 |
38. |
M. M. Malikov, “Experimental study of nonequilibrium plasma”, TVT, 8:2 (1970), 260–265 ; High Temperature, 8:2 (1970), 247–251 |
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1969 |
39. |
M. M. Malikov, “Вращение газа в электрической дуге в продольном магнитном поле”, TVT, 7:3 (1969), 572–574 |
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2003 |
40. |
V. T. Karpukhin, M. M. Malikov, “Errata to the article: UV lasing in a multipass copper vapour amplifier – nonlinear crystal system”, Kvantovaya Elektronika, 33:8 (2003), 750 |
41. |
V. T. Karpukhin, M. M. Malikov, “Errata to the article: Self-terminated laser amplifier with an enhanced peak output pulse power”, Kvantovaya Elektronika, 33:8 (2003), 750 |
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1989 |
42. |
L. B. Direktor, M. M. Malikov, “Баланс энергии электронов и возбужденных атомов в плазме лазера на парах меди (№ 3571-В-89 от 30.V.1989)”, TVT, 27:5 (1989), 1036 |
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