федеральное государственное автономное образовательное учреждение высшего образования
«Самарский национальный исследовательский университет имени академика С.П. Королева»

Kolpakov, Vsevolod A.

  • Institute of IT, Mathematics and Electronics, professor
  • professor
2020
  • 1 Kolpakov V.A., Krichevskii S.V. Diffusion Mechanism in Aluminum–Silicon Structures Surface-Irradiated by Off-Electrode Plasma of a High-Voltage Gas Discharge // Technical Physics 2020. — Vol. 65. Issue 1. — P. 57-62
  • 2 Markushin M.A., Kolpakov V.A., Krichevskii S.V. Specific Features of the Distribution of Nonuniform Electrostatic Field in a System with Variable Configuration of Electrodes That Generates High-Voltage Gas Discharge // Technical Physics 2020. — Vol. 65. Issue 12. — P. 1956-1962
2007
  • 1 Kazanskiǐ N.L., Kolpakov A.I., Kolpakov V.A. etc. Temperature measurement of a surface exposed to a low-temperature plasma flux // Technical Physics 2007. — Vol. 52. Issue 12. — P. 1552-1556
  • 2 KAZANSKIY N.L., KOLPAKOV V. A., KOLPAKOV A.I. etc. Исследование особенностей трибометрического взаимодействия диэлектрических подложек при экспресс – контроле степени чистоты их поверхности // Computer Optics 2007. — № том 31, № 1. — P. 42-46
1999
  • 1 Kolpakov V.A., Kolpakov A.I. Investigation of the entrainment of silicon atoms by "vacancies" formed in an aluminum melt when its surface is exposed to an ion-electron flux // Technical Physics Letters 1999. — Vol. 25. Issue 8. — P. 618-620
2001
  • 1 VOLKOV A. V., KAZANSKIY N.L., KOLPAKOV V. A. Расчет скорости плазмохимического травления кварца // Computer Optics 2001. — № №21. — P. 121-125
2002
  • 1 Kolpakov V.A. Modeling the high-voltage gas-discharge-plasma etching of SiO2 // Mikroelektronika 2002. — Vol. 31. Issue 6. — P. 431-441
  • 2 Kolpakov V.A. Modeling the High-Voltage Gas-Discharge-Plasma Etching of SiO2 // Russian Microelectronics 2002. — Vol. 31. Issue 6. — P. 366-374
  • 3 KAZANSKIY N.L., KOLPAKOV V. A., KOLPAKOV A.I. Исследование механизма формирования каталитической маски при облучении структуры алюминий–кремний частицами газового разряда высоковольтного типа // Computer Optics 2002. — № № 24. — P. 84-90
2003
  • 1 N.L. Kazanskiy, V.A. Kolpakov Simulation of technological process by etching of microstructures in high-voltage gas discharge plasma // Micro- and nanoelectronics-2003. — 2003. — P. P1-53
  • 2 KAZANSKIY N.L., KOLPAKOV V. A. Исследование механизмов формирования низкотемпературной плазмы газовым разрядом высоковольтного типа // Computer Optics 2003. — № № 25. — P. 112-117
2004
  • 1 Kazanskij N.L., Kolpakov V.A., Kolpakov A.I. Anisotropic etching of SiO2 in high-voltage gas-discharge plasma // Mikroelektronika 2004. — Vol. 33. Issue 3. — P. 209-225
  • 2 Kazanskiy N.L., Kolpakov V.A. Simulation of technological process of microstructures etching in high-voltage gas discharge plasma // Proceedings of SPIE - The International Society for Optical Engineering. — 2004. — Vol. 5401. — P. 648-654
  • 3 Kazanskii N.L., Kolpakov V.A., Kolpakov A.I. Anisotropic etching of SiO2 in high-voltage gas-discharge plasmas // Russian Microelectronics 2004. — Vol. 33. Issue 3. — P. 169-182
2005
  • 1 KAZANSKIY N.L., KOLPAKOV V. A., KRIChEVSKIY SERGEY VASILEVICh Моделирование процесса очистки поверхности диэлектрических подложек в плазме газового разряда высоковольтного типа // Computer Optics 2005. — № № 28. — P. 80-86
  • 2 KAZANSKIY N.L., KOLPAKOV V. A., KOLPAKOV A.I. etc. Оптимизация параметров устройства трибометрического измерения чистоты поверхности подложек // Computer Optics 2005. — № № 28. — P. 76-79
  • 3 N.L. Kazanskiy, V.A. Kolpakov, KOLPAKOV A.I. Studies into a Mechanism of Catalytic Mask Generation in Irradiation of an Al-Si Structure with High-Voltage Gas-Discharge Particles // Optical Memory and Neural Networks 2005. — № Volume 14, # 3. — P. 151-159
2006
  • 1 N.L. Kazanskiy, V.A. Kolpakov Studies into mechanisms of generating a low-temperature plasma in high-voltage gas discharge // Optical Memory and Neural Networks 2006. — № № 4. — P. 163-169
  • 2 Kazanskiy N.L., Kolpakov V.A., Kritchevskiy S.V. Simulating the process of dielectric substrate surface cleaning in high-voltage gas discharge plasma // Proceedings of SPIE - The International Society for Optical Engineering. — 2006. — Vol. 6260.
2008
  • 1 Kazanskiy N.L., Karpeev S.V., Kolpakov V.A. etc. Interaction of dielectric substrates in the course of tribometric assessment of the surface cleanliness // Optical Memory and Neural Networks (Information Optics) 2008. — Vol. 17. Issue 1. — P. 37-42
  • 2 Kazanskiy N.L., Kolpakov V.A., Kolpakov A.I. etc. Parameter optimization of a tribometric device for rapid assessment of substrate surface cleanliness // Optical Memory and Neural Networks (Information Optics) 2008. — Vol. 17. Issue 2. — P. 167-172
  • 3 Kazanskiy N.L., Kolpakov V.A., Paranin V. D. etc. The method of thin metal films adhesion increasing for the lowered dimensions structures // Proceedings of SPIE - The International Society for Optical Engineering. — 2008. — Vol. 7025.
2019
  • 1 Markushin M.A., Kolpakov V.A., Krichevskiy S.V. Influence of electric field distribution on the charged particles kinetics of the off-electrode plasma formed by high-voltage gas discharge // Proceedings of SPIE - The International Society for Optical Engineering. — 2019. — Vol. 11146.
2009
  • 1 Kazanskii N.L., Kolpakov V.A. Effect of bulk modification of polymers in a directional low-temperature plasma flow // Technical Physics 2009. — Vol. 54. Issue 9. — P. 1284-1289
2011
  • 1 KAZANSKIY N.L., KOLPAKOV V.A. Temperature Measurement of a Surface Exposed to a Plasma Flux Generated Out-side the Electrode Gap. Chapter in book 2 HEAT CONDUCTION Edited by Prof. Dr. Vyacheslav S. VikhrenkoBelarus: Belarus: InTech - Open Access Publish-er, – ISBN 979-953-307-656-9., 2011. 32p.
2013
  • 1 Kolpakov V.A., Kolpakov A.I., Podlipnov V.V. Formation of an out-of-electrode plasma in a high-voltage gas discharge // Technical Physics 2013. — Vol. 58. Issue 4. — P. 505-510
  • 2 KOLPAKOV V.A., KAZANSKIY N.L., KOLPAKOV A.I. etc. Device for Checking the Surface Finish of Substrates by Tribometry Method // Friction and Wear Research (FWR). – Science and Engineering Publishing Company, 2013 2013. — № 1. — P. 10-14
  • 3 Kolpakov V.A., Novomeiskii D.N., Novozhenin M.P. Determination of the surface temperature of a sample in the region of its interaction with a nonelectrode plasma flow using the Kirchhoff transformation of a quadratic function // Technical Physics 2013. — Vol. 58. Issue 11. — P. 1554-1557
2014
  • 1 Kolpakov V.A., Kolpakov A.I., Krichevskii S.V. A source of a wide-aperture gas-discharge plasma flow // Instruments and Experimental Techniques 2014. — Vol. 57. Issue 2. — P. 147-154
  • 2 Podlipnov. V.V., Kolpakov V.A. Off-electrode plasma for micrco- and nanotechnology // Nanostructures: phisics and technology (Nano 2014). — 2014. — P. 275-276
  • 3 Kolpakov V.A., Ivliev N.A. Measuring the surface purity of substrates by the tribometry method // Instruments and Experimental Techniques 2014. — Vol. 57. Issue 5. — P. 640-645
  • 4 Kazanskiy N.L., Kolpakov V.A., Podlipnov V.V. Gas discharge devices generating the directed fluxes of off-electrode plasma // Vacuum 2014. — Vol. 101. — P. 291-297
2015
  • 1 Markushin M.A., Kolpakov V.A., Krichevskii S.V. etc. Simulation of the electric field distribution in the electrode system of a device forming a high-voltage gas discharge // Technical Physics 2015. — Vol. 60. Issue 3. — P. 376-380
  • 2 Kolpakov V.A., Krichevskiy S.V., Markushin M.A. A device for monitoring the distribution of particles of off-electrode high-voltage gas-discharge plasma over the stream cross section using the curved-cavity method // Instruments and Experimental Techniques 2015. — Vol. 58. Issue 5. — P. 653-656
  • 3 Kolpakov V.A., Kolpakov A.I., Krichevskiy S.V. A multibeam generator of gas-discharge plasma // Instruments and Experimental Techniques 2015. — Vol. 58. Issue 5. — P. 683-686
  • 4 Kolpakov V.A., Podlipnov V.V. Mechanism of interaction between a directed beam of negative particles from a gas-discharge plasma and the melted nickel surface // Technical Physics 2015. — Vol. 60. Issue 1. — P. 53-56
  • 5 Kolpakov V.A., Ivliev N.A. Atomic-molecular model of boundary friction in microtribocontacts between the surfaces of semiconducting and dielectric materials // Technical Physics 2015. — Vol. 60. Issue 6. — P. 922-927
2016
2017
  • 1 Kazanskiy N.L., Kolpakov V.A., Krichevskiy S.V. etc. A gas-discharge plasma focuser // Instruments and Experimental Techniques 2017. — Vol. 60. Issue 5. — P. 748-751
  • 2 Ivliev N.A., Kolpakov V.A., Krichevskii S.V. etc. Determination of Concentration of Organic Contaminants on a Silicon Dioxide Surface by Tribometry // Measurement Techniques 2017. — P. 1-5
  • 3 Podlipnov Vladimir Vladimirovich, Kolpakov V.A. Experimental study of the re-emission during thin film etching in the outside the electrodes discharge plasma // Приборостроение, электроника и телекоммуникации – 2016. — 2017. — P. 81-85
  • 4 Ivliev N.A., Kolpakov V.A., Kolpakov V.A. etc. Determination of organic contaminants concentration on the silica surface by lateral force microscopy // Приборостроение, электроника и телекоммуникации – 2016. — 2017. — P. 34-41
  • 5 Kazanskiy N.L., Kolpakov V.A., Krichevskiy S.V. etc. Simulations of dynamic resistive evaporation in a vacuum // Technical Physics 2017. — Vol. 62. Issue 10. — P. 1490-1495
  • 6 Markushin M.A., Kolpakov V.A., Krichevskiy S.V. Calculation of the electrostatic field distribution formed by the generator of the off-electrode plasma // CEUR Workshop Proceedings. — 2017. — Vol. 1904. — P. 93-99
  • 7 Kolpakov V.A., Krichevsky S.V., Podlipnov V.V. A resistive dynamic evaporator for multicomponent materials // Instruments and Experimental Techniques 2017. — Vol. 60. Issue 2. — P. 297-300
  • 8 Ivliev N.A., Kolpakov V.A., Krichevskii S.V. etc. Determination of Concentration of Organic Contaminants on a Silicon Dioxide Surface by Tribometry // MEASUREMENT TECHNIQUES 2017. — Vol. 60. Issue 9. — P. 869-873
  • 9 Kazanskiy N.L., Kolpakov V.A. Optical materials: Microstructuring surfaces with off-electrode plasma2017. 190p.
  • 10 Kolpakov V.A., Krichevskii S.V., Markushin M.A. Kinetics of charged particles in a high-voltage gas discharge in a nonuniform electrostatic field // Journal of Experimental and Theoretical Physics 2017. — Vol. 124. Issue 1. — P. 164-171
  • 11 Podlipnov V.V., Kolpakov V.A. Morphology and optical properties of thin CdTe films // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10342.
  • 12 Markushin M.A., Kolpakov V.A., Krichevskiy S.V. Software for analysis of the process of formation of the catalytic mask in the off-electrode plasma // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10342.
1995
  • 1 Kolpakov V.A., Kolpakov A.I., Krichevskij S.V. A device for the express-control of the surface finish of dielectric substrates // Pribory i Tekhnika Eksperimenta 1995. — Issue 5. — P. 199-200