Костюков Игорь Юрьевич
Высшая школа общей и прикладной физики
профессор
Педагогический стаж 7 лет, 2 мес.
Общие сведения
Научная Работа
Образование, учёные степени и учёные звания
Высшее образование
Специальность: Физика. Квалификация: физик.
Дополнительное образование, повышение квалификации, стажировки
13.02.2018 - 13.02.2018
Повышение квалификации: Оказание первой помощи, ННГУ, 8 час., документ № Рег. № 1440 от 13.02.2018
16.01.2018 - 01.02.2018
Повышение квалификации: Современные подходы в преподавании естественнонаучных дисциплин (в условиях введения ФГОС), Национальный исследовательский Нижегородский государственный университет им.Н.И.Лобачевского, 72 час., документ № 522405002145; рег. № 33-1016 от 01.02.2018
13.03.2017 - 13.05.2017
Повышение квалификации: Электронная информационно-образовательная среда вуза, ННГУ, 72 час., документ № 522404111625, рег. № 33-855 от 13.05.2017
Список преподаваемых дисциплин
Публикации
2023
Публикации в научных журналахKostyukov I.Yu., Pukhov A.M., Golovanov A.A., Malka V. Energy-Conserving Theory of the Blowout Regime of Plasma Wakefield // Physical Review Letters. V. 130. 2023. P. 105001.
Khazanov E. A., Shaykin A.A., Kostyukov I.Yu., Ginzburg V.N., Mukhin I.B., Yakovlev I.V., Solovyev A.A., Kuznetsov I., Mironov S.Yu., Korzhimanov A.V., Bulanov D.N., Shaikin I.A., Kochetkov A., Kuzymin A., Martyanov M.A., Lozhkarev V., Starodubtsev M.V., Litvak A.G., Sergeev A.M. EXawatt Center for Extreme Light Studies // High Power Laser Science and Engineering. V. 11. 2023. P. E78.
2022
Публикации в научных журналахNerush E.N., Golovanov A. A., Kostyukov I.Yu. Reconstruction of electron spectrum after magnetic spectrometer with weak magnet // Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. V. 1025. 2022. P. 166097.
2021
Публикации в научных журналахFilipovic M, Baumann C, Pukhov A.M., Samsonov A.S., Kostyukov I.Yu. Effect of transverse displacement of charged particle beams on quantum electrodynamic processes during their collision // Quantum Electronics. № 51. V. 9. 2021. P. 807-811.
2020
МонографииБалакин А.А., Костюков И.Ю., Фрайман Г.М. Основы теории нелинейных колебаний и волн. Долгопрудный: ИД "Интеллект", 272 с, ISBN 978-5-91559-283-3 http://www.id-intellect.ru/books/section-11/product-296/. 2020.
Публикации в научных журналахKostyukov I.Yu., Golovanov A.A., Thomas J., Reichwein L., Pukhov A. Fixing E-field divergence in strongly non-linear wakefields in homogeneous plasma // Plasma Physics and Controlled Fusion. V. 62. 2020. P. 115017.
Kostyukov I.Yu., Golovanov A.A., Khazanov E.A. i dr. Experimental study of strongly mismatched regime of laser-driven wakefield acceleration // Plasma Physics and Controlled Fusion. № 9. V. 62. 2020. P. 094004.
Kostyukov I.Yu., Serebryakov D.A. Piecewise acceleration of electrons across a periodic solid-state structure irradiated by intense laser pulse // Plasma Physics and Controlled Fusion. № 10. V. 62. 2020. P. 104002.
Samsonov A.S., Pukhov A.M., Kostyukov I.Yu. Superluminal phase velocity approach for suppression of Numerical Cherenkov Instability in Maxwell solver // Journal of Physics: Conference Series. № 1692. V. 1. 2020. P. 012002.
2019
Публикации в научных журналахKostyukov I.Yu., Nerush E.N., Samsonov A.S. Laser-driven vacuum breakdown waves // Scientific Reports. № 9:11133. V. 9. 2019. P. 11133.
Kostyukov I.Yu., Nerush E.N., Pukhov A.M. Probing non-perturbative QED with electron-laser collisions // Scientific Reports. № 9:9407. V. 9. 2019. P. 9407.
Kostyukov I.Yu., Nerush E.N., Serebryakov D.A., Volkova T.M. Efficient gamma-ray source from solid-state microstructures irradiated by relativistic laser pulses // Plasma Physics and Controlled Fusion. № 61. V. 61. 2019. P. 074007.
2018
Публикации в научных журналахKostyukov I.Yu., Nerush E.N., Samsonov A.S. Asymptotic electron motion in the strongly-radiation-dominated regime // Physical Review A - Atomic, Molecular, and Optical Physics. № 053858. V. 98. 2018. P. 053858.
Kostyukov I.Yu., Nerush E.N., Golovanov A.A. DESIGN OF A GAS CELL FOR LASER WAKEFIELD ACCELERATION OF ELECTRONS // Problems of Atomic Science and Technology. № 4. V. 4. 2018. P. 70.
2017
Публикации в научных журналахKostyukov I.Yu., Nerush E.N., Serebryakov D.A. Near-surface electron acceleration during intense laser–solid interaction in the grazing incidence regime // Physics of Plasmas. № 12. V. 24. 2017. P. 123115.
Kostyukov I.Yu., Golovanov A.A. Specific features of betatron oscillations and betatron emission in a hollow-channel plasma // Quantum Electronics. № 3. V. 47. 2017. P. 188 – 193.
2016
Публикации в научных журналахKostyukov I.Yu., Golovanov A.A., Pukhov A.M., Pronold J., Thomas J. Non-linear theory of a cavitated plasma wake in a plasma channel for special applications and control // Physics of Plasmas. № 5. V. 23. 2016. P. 053108.
Kostyukov I.Yu., Golovanov A.A. Generalised model of a sheath of a plasma bubble excited by a short laser pulse or by a relativistic electron bunch in transversely inhomogeneous plasma // Quantum Electronics. № 4. V. 46. 2016. P. 295 – 298.
2015
Публикации в научных журналахКостюков И.Ю., Пухов А.М. Плазменные методы ускорения электронов: современное состояние и перспективы // Успехи физических наук. № 1. Т. 185. 2015. С. 89–96.
Nerush E.N., Kostyukov I.Yu. Laser-driven hole boring and gamma-ray emission in high-density plasmas // Plasma Physics and Controlled Fusion. № 3. V. 57. 2015. P. 035007.
Gelfer E.G., Mironov A.A., Fedotov A.M., Bashmakov V.F., Nerush E.N., Kostyukov I.Yu., Narozhny N.B. Optimized multibeam configuration for observation of QED cascades // Physical Review A. № 22. V. 92. 2015. P. 022113.
Kostyukov I.Yu., Pukhov A.M., Luu-Thanh P., Tückmantel T. European Physical Journal: Special Topics // Laser fields in dynamically ionized plasma structures for coherent acceleration. V. 224. 2015. P. 2625-2629.
Kostyukov I.Yu., Nerush E.N., Serebryakov D.A. Incoherent synchrotron emission of laser-driven plasma edge // Physics of Plasmas. № 12. V. 22. 2015. P. 123119.
2014
Публикации в научных журналахNerush E.N., Kostyukov I.Yu., Pukhov A.M., Ji L. Energy partition, γ-ray emission, and radiation reaction in the near-quantum electrodynamical regime of laser-plasma interaction // Physics of Plasmas. № 1. V. 21. 2014. P. 013109-1-8.
Ji L.L., Kostyukov I.Yu., Pukhov A.M., Nerush E.N., Shen B.F., Alki K.U. Energy partition, γ-ray emission, and radiation reaction in the near-quantum electrodynamical regime of laser-plasma interaction // Physics of Plasmas. № 2. V. 21. 2014. P. 023109-1-8.
Bashmakov V.F., Nerush E.N., Kostyukov I.Yu., Fedotov A.M., Narozhny N.B. Effect of laser polarization on quantum electrodynamical cascading // Physics of Plasmas. № 1. V. 21. 2014. P. 013105-1-11.
Thomas J., Kostyukov I.Yu., Pukhov A.M. Temporal and spatial expansion of a multi-dimensional model for electron acceleration in the bubble regime // Laser and Particle Beams. № 02. V. 32. 2014. P. 277-284.
Pukhov A.M., Kostyukov I.Yu., Tückmantel T., Luu-Thanh P., Mourou G. Coherent acceleration by laser pulse echelons in periodic plasma structures // The European Physical Journal Special Topics. № 6. V. 223. 2014. P. 1069-1082.
Pukhov A.M., Ji L.L., Kostyukov I.Yu., Nerush E.N., Alki K.U., Shen B.F. Near QED regime of laser interaction with overdense plasmas // The European Physical Journal Special Topics. № 6. V. 223. 2014. P. 1197-1206.
Ji L.L., Kostyukov I.Yu., Pukhov A.M., Shen B.F., Alki K. Radiation-Reaction Trapping of Electrons in Extreme Laser Fields // Physical Review Letters (Impact factor: 7.943). № 14. V. 112. 2014. P. 145003.
Pukhov A.M., Kostyukov I.Yu., Jansen O, Tueckmantel T, Thomas J Field-Reversed Bubble in Deep Plasma Channels for High-Quality Electron Acceleration // Physical Review Letters (Impact factor: 7.943). № 24. V. 113. 2014. P. 245003.
2013
Публикации в научных журналахKostyukov I.Yu., Nerush E.N. PARTICLE BEAMS FROM LASER-IRRADIATED SOLIDS AT ULTRAHIGH INTENSITIES // PROBLEMS OF ATOMIC SCIENCE AND TECHNOLOGY. № 4. V. 86. 2013. P. 248-250.
Kostyukov I.Yu., Nerush E.N., Bashmakov V.F. SHORT-TIME PARTICLE MOTION IN STRONG STANDING ELECTROMAGNETIC WAVE // PROBLEMS OF ATOMIC SCIENCE AND TECHNOLOGY. № 4. V. 86. 2013. P. 241-244.
Kostyukov I.Yu. RELATIVISTICALLY INDUCED TRANSPARENCY AND COMPRESSED FUSION TARGETS // PROBLEMS OF ATOMIC SCIENCE AND TECHNOLOGY. № 4. V. 86. 2013. P. 245-247.