Leading researcher, member of the Laboratory of Power Semiconductor Devices (PSD), Ioffe Physical-Technical Institute
Address:
26 Polytechnicheskaya Str., 194021 St.Petersburg, Russia
Phone:
007(812)2927321
Fax:
007(812)2927123
Main areas of research
Working experience in the field of spintronics, including conventional and laser molecular beam epitaxy of semiconductors (AVBVI, AIIIBV), oxides, fluorides and metals. Experience in optics and spectroscopy of solids. Experience in measurement methods such as XRD, RHEED, XAS, FTIR, AFM, XMCD, ARPES, electric probe-based methods.
Working experience in the area of experimental studies of the interface of metals and topological insulators
Experience in the field of terahertz instrumentation development
Education
1/2023
Dr.Sci., dissertation defended on Jan. 19 (diploma ДН № 000007), Ioffe Institute
2/2006
PhD, certificate of degree in “Physics of Condensed Matter” (diploma КТ № 172555), Ioffe Institute
6/2001
Saint-Petersburg State Polytechnic University, St.-Petersburg 195251, RUSSIA, Technical-Physical Faculty, Master Degree Certificate АВМ 0036579 in “Technical Physics”.
Ioffe Physical-Technical Institute, Division of Solid State Physics, Solid State Spectroscopy lab. Junior researcher, research scientist.
Visiting positions
2016-2019
[four times] HiSOR synchrotron radiation center, Hiroshima university, Japan (XMCD and ARPES measurements of spinels and topological insulators); Tsukuba Photon factory, Tsukuba, Japan
2003-2005
[three times] ELETTRA synchrotron, Trieste, Italy (XAS measurements of fluorides)
Awards, grants
2016
Gratitude of the President of the Russian Academy of Sciences
2007
Selected as the best scientific research in Ioffe Institute at 2007
2007
President of Russian Federation Personal Grant
2001-2004
Several local grants during M.S. and Ph.D. curriculum
2001
Selected as the best scientific master degree research at 2001
2001
M.S. diploma with honor (summa cum laude), St.Petersburg State Polytechnical University
Most important research projects
1/2017-12/2019
RFBR grant № 17-02-00729, “The formation and investigation of the interfacial electronic properties of the ferromagnetically ordered systems on topological insulators”
1/2017-12/2019
RSCF Grant № 17-12-01508, “New oxide nanosized heterostructures for microwave applications: growth process, crystal structure and magnetic properties”
1/2015-12/2017
Rus. Fed. Government Grant № 14.Z50.31.0021, “Hybrid SpinOptronics – functional possibilities of spin in the semiconducting nanostructures and symiconductor/metal hybrides: optical, microwave and electric control of spin”
1/2015-12/2016
National contract №716ГС1/11487, “Development of the simple device based on surface plasmon resonance for the probing of ultra-small substance concentrations”,
2011
National contract №9776р/16574 “Development of novel spectroscopic devices and components for THz wavelength range signal detection and elaboration”. 2011, Foundation for Assistance to Small Innovative Enterprises in the scientific and technological sphere.
Peer review activities
Referee for different scientific journals, like Applied Optics, Optics Express, Optics Letters, Journal of Applied Physics, Superlattices and Microstructures, etc.
Key cooperation partners
HiSOR synchrotron radiation center, Hiroshima university, Japan
Rzhanov Institute of Semiconducting physics, Novosibirsk, Russia
Institute of Material strength physics, Tomsk, Russia
Saint-Petersburg Zh. Alferov Academic University, Saint-Petersburg, Russia
Scientific output summary
Andrey Kaveev’s publication record currently contains more than 50 contributions to Russian and international scientific journals, more than 50 contributions to conference volumes, and 3 manuals for students.
Selected publications (2015-2022)
Kaveev A.K., Suturin S.M., Golyashov V.A., Kokh K.A., Eremeev S.V., Estyunin D.A., Shikin A.M., Okotrub A.V., Lavrov A.N., Schwier E.F., Te-reshchenko O.E. Band gap opening in the BiSbTeSe2 topological surface state induced by ferromagnetic surface reordering // Phys. Rev. Mater. – 2021 – Vol. 5 – №12 – P. 124204.
Kaveev A.K., Terpitskiy A.N., Tereshchenko O.E., Golyashov V.A., Estyunin D.A., Shikin A.M., Schwier E.F. Change of the topological surface states induced by ferromagnetic metals deposited on BiSbTeSe2 // J. Phys.: Conf. Ser. – 2020 – Vol.1697 – №1 – P. 012095.
Кавеев А.К., Банщиков А.Г., Терпицкий А.Н., Голяшов В.А., Терещенко О.Е., Кох К.А., Естюнин Д.А., Шикин А.М. Раскрытие энергети-ческой щели в области точки Дирака при осаждении кобальта на поверх-ность (0001) топологического изолятора BiSbTeSe2 // ФТП – 2020 – Т. 54 – №9 – Стр. 859-586.
Кавеев А.К., Терещенко О.Е. Оптимизация буферного диэлектриче-ского слоя для создания малодефектных эпитаксиальных пленок тополо-гического изолятора Pb1-xSnxTe c x≥0.4 // ФТП – 2022 Т. 56 – №7- стр. 642-645.
Кавеев А.К., Бондаренко Д.Н., Терещенко О.Е. Структурные свойства тонких пленок кристаллического топологического изолятора Pb0.7Sn0.3Te на Si(111) // ФТП – 2021 – Т. 55 – №8 – стр. 625-628.
Kaveev A.K., Bondarenko D.N., Tereshchenko O.E. The dependence of surface morphology on the growth temperature of the Pb0.7Sn0.3Te/Si(111) topological insulator thin films // J. Phys.: Conf. Ser. – 2021 – Vol.2103 – №1 – P.012086.
Тарасов А.С., Голяшов В.А., Ищенко Д.В., Ахундов И.О., Климов А.Э., Эпов В.С., Кавеев А.К., Супрун С.П., Шерстякова В.Н., Терещенко О.Е. Эффект поля и спин-вентильный эффект в кристаллическом топологическом изоляторе PbSnTe // Автометрия – 2020 – Т. 56 – №5 – Стр. 121-126
Viktor E. Bursian, Andrey K. Kaveev, Alexander M. Korovin, Boris B. Krichevtsov, Leonid V. Lutsev, Sergey M. Suturin, Masahiro Sawada, and Nikolai S. Sokolov, Bulk-Like Dynamic Magnetic Properties of Nickel Ferrite Epitaxial Thin Films Grown on SrTiO3(001) Substrates, IEEE MAGNETICS LETTERS, Volume 10 (2019) 6104505
Kaveev A.K., Golyashov V.A., Klimov A.E., Schwier E.F., Suturin S.M., Tarasov A.S., Tereshchenko O.E., Structure and magneto-electric properties of Co-based ferromagnetic films grown on the Pb0.71Sn0.29Te crystalline topological insulator, 2020, Mater. Chem. Phys., v.240 122134, DOI: http://dx.doi.org/10.1016/j.matchemphys.2019.122134
S.P. Feoflov, A.B. Kulinkin, A.K. Kaveev, N.S. Sokolov, S.M. Suturin, Fluorescence of Cr3+ ions in MgAl2O4 epitaxial nanosize spinel flms on SrTiO3 substrates, Thin Solid Films 693 (2020) 137732
Suturin S.M., Kaveev A.K., Korovin A.M., Fedorov V.V., Sawada M., Sokolov N.S., Structural transformations and interfacial iron reduction in heterostructures with epitaxial layers of 3D metals and Ferrimagnetic oxides, 2018, J. Appl. Crystallogr., v.51, 4 страницы: 1069-1081, DOI: http://dx.doi.org/10.1107/S1600576718007823
B.Krichevtsov, S.Gastev, K.Mashkov, A.Kaveev, A.Korovin, L.Lutsev, S.Suturin, I.Lobov, A.Telegin, A.Lomov and N. Sokolov, Journal of Physics: Magnetization reversal in NiFe2O4/SrTiO3 nanoheterostructures grown by laser molecular beam Epitaxy, Journal of Physics: Conference Series1389 (2019) 012106
Sebastian Fiedler, Sergey V. Eremeev, Vladimir A. Golyashov, Andrey K. Kaveev, Oleg E. Tereshchenko, Konstantin A. Kokh, Evgueni V. Chulkov, Hendrik Bentmann and Friedrich Reinert, “Topological states induced by local structural modification of the polar BiTeI(0001) surface”, New J. Phys. 20 (2018) 063035, https://doi.org/10.1088/1367-2630/aac75e
S.P. Feofilov, A.B. Kulinkin, A.K. Kaveev, N.S. Sokolov, S.M. Suturin, “Fluorescence spectroscopy of Cr3+ ions in MgO nanofilms on Al2O3 and GaN substrates”, Optical Materials 83 (2018) 43–46, https://doi.org/10.1016/j.optmat.2018.05.059
Andrey K. Kaveev, Nikolay S. Sokolov, Sergey M. Suturin, Nikita S. Zhiltsov, Vladimir A. Golyashov, Konstantin A. Kokh, Igor P. Prosvirin, Oleg E. Tereshchenko and Masahiro Sawada, “Crystalline structure and magnetic properties of structurally ordered cobalt–iron alloys grown on Bi-containing topological insulators and systems with giant Rashba splitting”, CrystEngComm, 2018, 20, 3419 – 3427, DOI: http://dx.doi.org/10.1039/C8CE00326B
A. K. Kaveev, V. E. Bursian, B. B. Krichevtsov, K. V. Mashkov, S. M. Suturin, M. P. Volkov, M. Tabuchi and N. S. Sokolov, “Laser MBE grown Co40Fe40B20 epitaxial layers on MgO: surface morphology, crystal structure and magnetic properties”, Phys. Rev. Mater. 2, 014411 (2018)
A. K. Kaveev, S. M. Suturin, N. S. Sokolov, K. A. Kokh, and O. E. Tereshchenko, “A Study of the Crystal Structure of Co40Fe40B20 Epitaxial Films on a Bi2Te3 Topological Insulator”, Technical Physics Letters, 2018, Vol. 44, No. 3, pp. 184–186.
A. K. Kaveev, N. S. Sokolov, S. M. Suturin, N. S. Zhiltsov, V. A. Golyashov, O. E. Tereshchenko, I. P. Prosvirin, K. A. Kokh and M. Sawada, “Crystalline structure and XMCD studies of Co40Fe40B20 grown on Bi2Te3,BiTeI and Bi2Se3”, https://arxiv.org/abs/1801.10061
A. K. Kaveev, V. E. Bursian, S. V. Gastev, B. B. Krichevtsov, S. M. Suturin, M. P. Volkov, and N. S. Sokolov, “Growth of Y3Fe5O12/GaN Layers by Laser Molecular-Beam Epitaxy and Characterization of Their Structural and Magnetic Properties”, Technical Physics Letters, 2016, Vol. 42, No. 12, pp. 1156–1158, 2016. DOI: http://dx.doi.org/10.1134/S1063785016120075
Kaveev A. K., Bursian V. E., Gastev S. V., et al.. “Laser MBE-grown yttrium iron garnet films on GaN: characterization of the crystal structure and magnetic properties” Mat. Ressearch Express, 3, 7, 076405 (2016) (DOI: http://dx.doi.org/10.1088/2053-1591/3/7/076405)
Agafonov Andrey N., Volodkin Boris O., Kachalov Denis G., Kaveev Andrey K., et al., “Focusing of Novosibirsk Free Electron Laser (NovoFEL) radiation into paraxial segment” J. Mod. Opt., 63, 11 pp: 1051-1054 (2016), http://dx.doi.org/10.1080/09500340.2015.1118163
Andrey N. Agafonov, Boris O. Volodkin, Andrey K. Kaveev, Denis G. Kachalov, Grigory I. Kropotov, Konstantin N. Tukmakov, Vladimir S. Pavelyev, Dmitry I.Tsypishka, Yulia Yu. Choporova, “NovoFEL THz laser radiation focusing into axial segment”, Computer optics, 2015, v.39, N.1, 58-62 http://dx.doi.org/10.18287/0134-2452-2015-39-1-58-63
Andrey K. Kaveev, Nikita S. Zhiltsov, Alexander M. Korovin and Masahiro Sawada, “XMCD And XAS Study Of CoFeB Heterostructures Grown On Different Substrates For Spintronic Applications“, HiSOR activity report 2016, 16BG008 BL-14
A. K. Kaveev, N. S. Sokolov, S. M. Suturin, N. S. Zhiltsov, A.E. Klimov, O. E. Tereshchenko, “Studies of CoFeB crystalline structure grown on PbSnTe topological insulator substrate”, 2017, http://arxiv.org/abs/1712.01585
Andrey K. Kaveeva, Nikita S. Zhiltsova and Masahiro Sawada, “XAS, XMCD and ARPES Studies of Co and Co40Fe40B20 Ultrathin Films on Bi2Te3 for Spintronic Applications”, HiSOR activity report 2017 17BU011
Andrey K. Kaveev, Alexander G.Banshchikov, Nikolay S. Sokolov and Masahiro Sawada, “Cation Distribution and Magnetic Properties of NiFe2O4 Nanofilms on MgO and SrTiO3 substrates: XAS and XMCD Soft X-ray Studies”, HiSOR activity report 2018 18BG048
Andrey K. Kaveev, Oleg E. Tereshchenko, Vladimir A. Golyashov and Eike F. Schwier, “ARPES Studies of Ultrathin Ferromagnetic Films on Topological Insulators for Spintronic Applications”, HiSOR activity report 2018 18BG002
Патент RU № 2783365 “Слой топологического изолятора Pb1-xSnxTe:In на кристаллической подложке и способ его изготовления”
Патент RU № 2660764 “Сенсор на основе поверхностно-плазмонного резонанса с элементом плоской оптики”
Патент ЕПВ № 015000 “Способ нанесения полиэтилена на кремний и кремниевый оптический элемент с просветляющим покрытием из полиэтилена, нанесенным указанным способом”
