ÂÎËÎÄÈÌÈÐ ÏÀÙÅÍÊÎ
Ô³çèêî-òåõí³÷íèé ³íñòèòóò íèçüêèõ òåìïåðàòóð ³ì. Á.². ºðê³íà Íàö³îíàëüíî¿ àêàäå쳿 íàóê Óêðà¿íè
Ïðîñïåêò íàóêè, 47, Õàðê³â, 61103 Óêðà¿íà |
||
Òåëåôîí |
+38(057)341-09-68 (ðîáî÷èé) +38(095)314-62-73 (mobile) |
|
Ôàêñ |
+38(057)340-33-70 |
|
ÎÑÎÁÈÑÒ² ÄÀͲ
ϲÁ |
ÏÀÙÅÍÊÎ ÂÎËÎÄÈÌÈÐ ÎËÅÊÑÀÍÄÐÎÂÈ× |
Äàòà íàðîäæåííÿ |
11/01/1963 |
̳ñöå íàðîäæåííÿ |
Õàðê³â, Óêðà¿íà |
Ãðîìàäÿíñòâî |
Óêðà¿íà |
Çíàííÿ ìîâ: |
Ðîñ³éñüêà, óêðà¿íñüêà, àíãë³éñüêà (ðîçìîâíà, ÷èòàííÿ, ïèñüìîâà) |
ÎѲÒÀ
Íàçâà îðãàí³çàö³¿ |
Íàóêîâèé ñòóïåíü |
Ñïåö³àëüí³ñòü |
Ô³çèêî-òåõí³÷íèé ³íñòèòóò íèçüêèõ òåìïåðàòóð ³ì. Á.². ºðê³íà, Íàö³îíàëüíà àêàäåì³ÿ íàóê Óêðà¿íè, Õàðê³â |
Êàíäèäàò ô³ç.-ìàò. íàóê (1992) |
Ô³çèêà òâåðäîãî ò³ëà |
Êè¿âñüêèé äåðæàâíèé óí³âåðñèòåò, Ðàä³îô³çè÷íèé ôàêóëüòåò |
Äèïëîì ñïåö³àë³ñòà - ðàä³îô³çèêà òà åëåêòðîí³êà (1985) |
Ðàä³îô³çèêà (íåë³íåéíà îïòèêà) |
ÎÁËÀÑÒÜ ÍÀÓÊÎÂÈÕ ²ÍÒÅÐÅѲÂ
ÏÐÎÔÅѲÉÍÈÉ ÄÎѲÄ
ÏÓÁ˲ÊÀÖ²¯
Çàãàëüíà ê³ëüê³ñòü ïóáë³êàö³é : 157 ( ïóáë³êàö³¿ ó æóðíàëàõ - 94).
Ïóáë³êàö³¿ çà îñòàíí³ 10 ðîê³â:
Magnetic and structural properties of La1-xGdxCoO3 compounds
A.S.Panfilov, G.E. Grechnev, A.A. Lyogenkaya, V.A. Pashchenko, L.O. Vasylechko, V.M. Hreb, A.V. Kovalevsky,
Physica B: Condensed Matter 609, ¹ 5, 412848(1-6) (2021)
Thermomagnetic transition in nanoscale synthetic antiferromagnets Py/NiCu/Py
V.Yu. Borynskyi, D.M. Polishchuk, Yu.O. Savina, V.O. Pashchenko, A.F. Kravets, A.I. Tovstolytkin, V. Korenivski
Low Temperature Physics, 49, p. 863-869, (2023)
The antiferromagnetic phase transition in the layered Cu0.15Fe0.85PS3 semiconductor: experiment and DFT modelling4 crystals
V. Pashchenko, O. Bludov, D. Baltrunas, K. Mazeika, S. Motria, K. Glukhov, Yu. Vysochanskii
Condensed Matter Physics, V. 25, 4, P. 43701, (2023)
Temperature and thickness dependent magnetostatic properties of [Fe/Py]/FeMn/Py multilayers
D. M. Polishchuk, O. I. Nakonechna, Ya. M. Lytvynenko, V. Kuncser, Yu. O. Savina, V. O. Pashchenko, A. F. Kravets, A. I. Tovstolytkin, V. Korenivski
Low Temperature Physics 47, 483–487 (2021)
The magnetic properties of the LaCr3(BO3)4 crystal
A.N. Bludov, Yu.O. Savina, V.A. Pashchenko, S.L. Gnatchenko, I.V. Kolodiy, V.V. Mal’tsev, N.N. Kuzmin, and N.I. Leonyuk
Low Temperature Physics, V. 46, 6, P. 767-770, (2020)
Magnetic properties of DyCr3(BO3)4
A.N. Bludov, Yu.O. Savina, V.A. Pashchenko, S.L. Gnatchenko, T. Zajarniuk, A. Lynnyk, M.U. Gutowska, A. Szewczyk, I.V. Kolodiy, V.V. Mal’tsev, N.N. Kuzmin, and N.I. Leonyuk
Low Temperature Physics, V. 46, 7, P. 829-836 (2020)
Magnetic properties of RCoO3 cobaltites (R = La, Pr, Nd, Sm, Eu). Effects of hydrostatic and chemical pressure
A.S. Panfilov, G.E. Grechnev, A.A. Lyogenkaya, V.A. Pashchenko, I.P. Zhuravleva, L.O. Vasylechko, V.M. Hreb, V.A. Turchenko, D. Novoselov
Physica B: Condensed Matter, 553 , V.1, P. 80, (2019)
Magnetic properties of RCoO3 cobaltites (R=La, Pr, Nd, Sm, Eu). Effects of hydrostatic and chemical pressure
A.S. Panfilov, G.E. Grechnev, A.A. Lyogenkaya, V.A. Pashchenko, I.P. Zhuravleva, L.O. Vasylechko, V.M. Hreb, V.A. Turchenko, D. Novoselov
JPhysica B: Condensed Matter, V. 553, P. 80–87, (2019)
Magnetic properties of a GdCr3(BO3)4 single crystal
A.N. Bludov, Yu.O. Savina, M.I. Kobets, V.A. Pashchenko, S.L. Gnatchenko, V.V. Mal'tsev, N.N. Kuzmin, N.I. Leonyuk
Low Temperature Physics, V. 44, 5, P. 423-427, (2018)
Antiferromagnetic resonance in crystalline PrFe3(BO3)4
A.N. Bludov, V.A. Pashchenko, M.I. Kobets, V.A. Bedarev, D.N. Merenkov, S.L. Gnatchenko, I.A. Gudim
Low Temperature Physics, V. 44, P. 139, (2018)
Pressure effect on magnetic susceptibility of LaCoO3
A.S. Panfilov, G.E. Grechnev, I.P. Zhuravleva, A.A. Lyogenkaya, V.A. Pashchenko, B.N. Savenko, D. Novoselov, D. Prabhakaran, I.O. Troyanchuk
Low Temperature Physics, V. 44, P. 328, (2018)
Rotational magnetocaloric effect in the TbAl3(BO3)4
M.I. Pashchenko, V.A. Bedarev, D.M. Merenkov, O.M. Bludov, V.O. Pashchenko, S.L. Gnatchenko, T. Zajarniuk, A. Szewczyk, V.L. Temerov
Low Temperature Physics, V. 43, P. 631, (2017)
Low-temperature magnetic phase transitions in the multiferroic Nd0.9Dy0.1Fe3(BO3)4. Part 1. Transitions induced by magnetic fields directed along the trigonal symmetry axis. Spontaneous transitions with temperature changes
G.A. Zvyagina, K.R. Zhekov, I.V. Bilych, M.P. Kolodyazhnaya, A.A. Zvyagin, A.N. Bludov, V.A. Pashchenkoi
Low Temperature Physics, V. 42, P. 273, (2016)
Magnetoresonance properties of manganite La(1−x)Sr(x)MnO3 (x = 0.15; 0.225; 0.3; 0.45; 0.6)
T.V. Kalmykova, S.V. Nedukh, S.Yu. Polevoy, A.A. Kharchenko, S.I. Tarapov, D.P. Belozorov, A.N. Pogorily, T.I. Polek, V.A. Pashchenko, O.M. Bludov
Low Temperature Physics, V. 41, P. 273, (2015)
Features of the magnetic properties of quasi-one-dimensional β-TeVO4 magnets at low temperatures.
Yu.O. Savina, O.M. Bludov, V.A. Pashchenko, S.L. Gnatchenko, P. Lemmens, H. Berger
Low Temperature Physics, V. 41, P. 283, (2015)
A study of the magnetic properties of a quasi-one-dimensional magnet β-TeVO4 in the frame of the J1–J2 model
Yu.O. Savina, A.N. Bludov, V.A. Pashchenko, S.L. Gnatchenko, Yu.V. Savin, S. Schäfer, P. Lemmens, H. Berger
Low Temperature Physics, V. 41, P. 659 (2015)
Synthetic ferrimagnets with thermomagnetic switching
A.F. Kravets, Yu.I. Dzhezherya, A.I. Tovstolytkin, I.M. Kozak, A. Gryshchuk, Yu.O. Savina, V.A. Pashchenko, S.L. Gnatchenko, B. Koop, V. Korenivski
Phys. Rev. B, V. 90, 10, P. 104427, (2014)
Interrelation of superconductivity and magnetism in FeSe(1-x)Te(x) compounds. Pressure effects
A.S. Panfilov, V.A. Pashchenko, G. E. Grechnev, V.A. Desnenko, A.V. Fedorchenko, A.N. Bludov, S.L. Gnatchenko, D.A. Chareev, E.S. Mitrofanovà, A.N. Vasiliev
Low Temperature Physics, V. 40, P. 615, (2014)
Magnetic field-induced phase transitions in the antiferromagnet Nd0.6Dy0.4Fe3(BO3)4
G.A. Zvyagina, K.R. Zhekov, I.V. Bilych, A.A. Zvyagin, A.N. Bludov, V.A. Pashchenko, I.A. Gudim
Low Temperature Physics, V. 40, P. 146, (2014)