Contacts:
Dr. Sergey B. Rybalka
 Associate Professor
 PhD in Physics
 Editorial Board Member
of NHPA Int. Journal
 Physics Department
State Technical University
E-mail contact :





 



 

Rare-Earth Metals

H2

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BOOKS, BOOK'S CHAPTERS AND PATENTS  

  1. S. Rybalka, A. Demidov, E. Kulchenkov. Software model of the integrated circuit of the radiation hardened positive linear voltage regulator with low dropout voltage (LDO) of the LT1963 series and its analogues. RU 2024660281, 03.05.2024  [URL]

  2. S. Rybalka, A. Demidov, E. Kulchenkov. Software model of the integrated circuit of the low power operational amplifier of the LM321 series and its analogues. RU 2023683384, 07.11.2023 [URL] [URL]

  3. N. Bryukhno, M. Kotova, S. Rybalka. Test cell for quality control of production of the silicon carbide Schottky diodes. RU 206535 U1, 15.09.2021 [URL]

  4. N. Bryukhno, S. Rybalka. Mask for ionic doping in silicon carbide wafers with aluminum. RU 198723 U1, 23.07.2020 [URL]

  5. S. Rybalka, A. Demidov, A. Malakhanov. Power diodes and transistors on the base of silicon carbide. Beau Bassin: LAP LAMBERT Academic Publishing, 2018. — 128 pp. (in Russian) [URL] Preview [PDF]

  6. Goltsov V.A., Rybalka S.B., Fruchart D., Didus V.A. Kinetics and some general features of hydrogen- induced diffusive phase transformations in Nd2Fe14B type alloys // Progress in Hydrogen Treatment of Materials. Coral Gables: Kassiopeya Ltd., 2001.– P. 367-390. [Review] (Platinum Metals Review, 2002, 46(1), p.37) [PDF]

ORIGINAL SCIENTIFIC ARTICLES

  1. E.A. Kulchenkov, A.A. Demidov, S.B. Rybalka. Study of the Influence of the Voltage Regulator Integrated Circuit Topology on its Radiation Hardness // Devices and Methods of Measurements. — 2025. — Vol. 16. — No. 1. — P. 63-68. [URL] [PDF]

  2. S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov. Radiation hardness study of positive LDO voltage regulators // EPJ Web Conf. — 2025. — Vol. 321. — P. 03010 (8 pp). [URL] [PDF]

  3. S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov,  K.S. Pilipenko. Radiation behaviour study of linear voltage regulator //  St. Petersburg Polytechnic University Journal. Physics and Mathematics. — 2024. — Vol. 17. — No. 3.1 — P. 195-198. [DJVU] [URL]

  4. K.S. Pilipenko, E.A. Kulchenkov, S.B. Rybalka, A.A. Demidov. Method for increasing of the voltage regulator radiation hardness //  St. Petersburg Polytechnic University Journal. Physics and Mathematics. — 2024. — Vol. 17. — No. 3.1 — P. 191-194. [DJVU] [URL]

  5. S.B. Rybalka, E.A. Kulchenkov, A.A. Demidov. The radiation hardened linear positive voltage regulator // Applied Physics. — 2024. — No. 6. — P. 89-96. [DJVU] [URL] [URL]

  6. S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov. Design and modelling of positive LDO voltage regulator // E3S Web of Conf. — 2024. — Vol. 592. — P. 03031 (7 pp). [URL] [PDF]

  7. E.A. Kulchenkov, S.B. Rybalka, A.A. Demidov. Study of radiation hardness of linear voltage regulator // Advances in Applied Physics. — 2023. — Vol. 11 — No. 5. — P. 445-454. [PDF] [URL] [URL]  

  8. S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov. Design and modelling of operational amplifier for energy systems // E3S Web of Conf. — 2023. — Vol. 390. — P. 06029 (8 pp). [URL] [PDF] [URL]

  9. S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov. High voltage silicon carbide Schottky diode for low temperature applications // Applied Physics. — 2022. — No. 3. — P. 49-55. [DJVU] [URL] [URL]

  10. V.F. Zotin, A.Yu. Drakin, S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov. Measuring complex for determining the characteristics of high-voltage silicon carbide Schottky diodes in impulse modes // Applied Physics. — 2021. — No. 6. — P. 67-73. [DJVU] [URL] [URL]

  11. S.V. Sedykh, S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov. Silicon carbide of 4H-SiC type Schottky diode current-voltage characteristics in small-sized type metal-polymeric package SOT-89 // J. Phys.: Conf. Ser. — 2021. — Vol. 2086. — P. 012065 (6 pp). [URL] [PDF] [URL]

  12. D.A. Knyaginin, E.A. Kulchenkov, S.B. Rybalka, A.A. Demidov. Study of characteristics of n-p-n type bipolar power transistor in small-sized metalpolymeric package type SOT-89 //  J. Phys.: Conf. Ser. — 2021. — Vol. 2086. — P. 012057 (6 pp). [URL] [PDF] [URL]

  13. S.B. Rybalka, O.A. Shishkina, I.O. Machikhina, N.S. Ponomaryova, A.A. Demidov. Kinetics of hydrogen-induced phase transformations in Nd2Fe14B type hard magnetic alloy for permanent magnets // AIP Conf. Proc. 2021.Vol. 2402.P. 020018 (9 pp). [URL] [DJVU] [PDF

  14. A.A. Demidov, S.B. Rybalka. Modern and promising semiconductor materials for microelectronics of the next decade (2020-2030) // Applied Mathematics & Physics. — 2021. — Vol. 53. — No.1. — P. 53-72. [PDF] [URL] [URL]

  15. S.V. Sedykh, S.B. Rybalka, E.A. Kulchenkov, A.A. Demidov, A.Yu. Drakin, N.A. Bryukhno, I.V. Kuftov. Test element for high voltage SiC Schottky diodes quality control // J. Phys.: Conf. Ser. — 2020. — Vol. 1695. — P. 012153 (4 pp). [URL] [PDF] [URL]

  16. D.A. Knyaginin, S.B. Rybalka, E.A. Kulchenkov, A.A. Demidov, N.A. Zhemoedov, A.Yu. Drakin. dV/dt testing of high voltage 4H-SiC Schottky diodes with different types of metal-polymeric packages //  J. Phys.: Conf. Ser. — 2020. — Vol. 1695. — P. 012160 (6 pp). [URL] [PDF] [URL]

  17. S.B. Rybalka, E.A. Kulchenkov, A.A. Demidov, N.A. Zhemoedov, A.Yu. Drakin, V.F. Zotin, O.A. Shishkina. Determination of dV/dt and dI/dt characteristics for high voltage 4H-SiC Schottky diodes with different types of metal-polymeric packages // J. Phys.: Conf. Ser. — 2020. — Vol. 1679. — P. 022045 (6 pp) [URL] [PDF] [URL]

  18. E.A. Kulchenkov, S.B. Rybalka, A.A. Demidov, A.Yu. Drakin. Calculation of characteristics of the silicon carbide Schottky diodes for small metalpolymeric package // Applied Mathematics & Physics. — 2020. — Vol. 52. — No.1. — P. 33-40. [PDF] [URL] [URL] [URL]

  19. S.B. Rybalka, I.O. Machikhina, O.V. Shcherbakova. Kinetics of hydrogen-induced reverse phase transformation in Y2Fe17 magnetic alloy // Philosophical Magazine Letters. — 2020. — Vol. 100. — No. 1 — P. 23-32. [DJVU] [URL] [URL]

  20. S.V. Sedykh, S.B. Rybalka, A.Yu. Drakin, A.A. Demidov, E.A. Kulchenkov. Determination of dV/dt values for domestic SiC Schottky diodes // J. Phys.: Conf. Ser. — 2019. — Vol. 1410. — P. 012195 (5 pp) [URL] [PDF] [URL]

  21. D.A. Knyaginin, S.B. Rybalka, A.Yu. Drakin, A.A. Demidov. Ti/4H-SiC Schottky diode with breakdown voltage up to 3 kV // J. Phys.: Conf. Ser. — 2019. — Vol. 1410. — P. 012196 (4 pp) [URL] [PDF] [URL]

  22. S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov, A.Yu. Drakin. Study of the dV/dt characteristics of the silicon carbide Schottky diodes // Belgorod State University Scientific Bulletin: Mathematics & Physics. — 2018 — Issue 50. No. 4. P. 460-468. [URL] [PDF] (in Russian)

  23. S. Sedykh, S. Rybalka, A. Drakin, A. Demidov et al. Ti/4H-SiC Schottky diode breakdown voltage with different thickness of 4H-SiC epitaxial layer // J. Phys.: Conf. Ser. — 2018. — Vol. 1124. — P. 071012 (5 pp) [URL]

  24. D. Knyaginin, A. Drakin, S. Rybalka, A. Demidov. Increase of accuracy of capacitance parameters measurements of power semiconductor modules on base IGBT and FRD // J. Phys.: Conf. Ser. — 2018. — Vol. 1124. — P. 071017 (4 pp) [URL]

  25. S.B. Rybalka. Kinetic study of hydrogen-induced direct phase transformation in Y2Fe17 magnetic alloy on the basis of Kolmogorov’s model // Philosophical Magazine Letters. — 2018. — Vol. 98. — No. 2 — P. 64-70. [URL] [DJVU] [URL] [URL]

  26. N. Bryukhno, V. Gromov, A. Demidov, A. Drakin, V. Zotin, E. Kulchenkov, S. Rybalka. Study of resistance of the ZAO "Gruppa Kremny EL" SiC Schottky diode to the speed of increase of the reverse voltage // Power Electronics. — 2018. — No. 2(71). — P. 10-12. [PDF] [URL] [URL] (in Russian)

  27. A.Yu. Drakin, S.B.Rybalka, A.A. Demidov. Calculation of 4H-SiC Schottky diode with breakdown voltage up to 3 KV // International Journal of Engineering & Technology. — 2018 — Vol. 7 (4.36) — P. 1012-1019. [PDF] [URL]

  28. P.V. Panchenko, S.B. Rybalka, A.A. Malakhanov, A.A. Demidov et al. Silicon carbide of Ni/6H-SiC and Ti/4H-SiC type Schottky diode current-voltage characteristics modelling // J. Phys.: Conf. Ser. — 2017. — Vol. 917. — P. 082010 (5 pp) [Abstract] [PDF] [URL]

  29. S.B. Rybalka, E.Yu. Krayushkina, A.A. Demidov, A.Yu. Drakin, V.F. Zotin. Calculation of anode material effect on current-voltage characteristics of the Schottky diode on the base of 4H-SiC silicon carbide // Belgorod State University Scientific Bulletin: Mathematics & Physics. — 2017. — Issue 48. No. 20(269). P. 93-97. [PDF] [URL] (in Russian)

  30. P.A. Ivanov, A.S. Potapov, S.B. Rybalka, A.A. Malakhanov. 4H-SiC МОS transistors with accumulation-type n-channel: spatial distribution of free electrons under the gate // Journal of Radio Electronics. — 2017. — No. 6. P. 1-10. [URL] [URL] (in Russian)

  31. Rybalka S.B., Krayushkina E.Yu., Demidov A.A., Shishkina O.A., Surin B.P. Forward current-voltage characteristics simulation of 4H-SiC silicon carbide Schottky diode for power electronics // International Journal of Physical Research. — 2017 — Vol. 5 (1) — P. 11-13. [PDF]

  32. Panchenko P.V., Rybalka S.B., Malakhanov A.A., Krayushkina E.Yu., Rad'kov A.V. I-V characteristics simulation of silicon carbide Ti/4H-SiC Schottky diode // Proc. SPIE "International Conference on Micro- and Nano-Electronics". — 2016. — Vol. 10224. — P. 102240Y-1—102240Y-5. [URL] [URL]

  33. Panchenko P.V., Malakhanov A.A., Rybalka S.B., Rad'kov A.V. Simulation of current-voltage characteristics of the Schottky diode on the base of Ti/4H-SiC silicon carbide // Journal of Radio Electronics. — 2016. — No. 8. P. 1-10. [URL] [URL] (in Russian)

  34. S.B. Rybalka, E.Yu. Krayushkina, V.A. Khvostov, A.A. Demidov. Current-voltage characteristics simulation of the Schottky diode on the base of 4H-SiC silicon carbide // Belgorod State University Scientific Bulletin: Mathematics & Physics. — 2016. — Issue 43. No. 13(234). P. 140-143. [PDF] [URL] (in Russian)

  35. Potapov L.A., Krayushkina E.Yu., Rybalka S.B., Demidov A.A., Shishkina O.A., Khvostov V.A., Malakhanov A.A. Forward I-V characteristics simulation of silicon carbide Schottky diode // Science Time. — 2016. — No. 5(29). P. 540-544. [URL]

  36. Rybalka S.B. Kinetic model for hydrogen-induced direct phase transformations in R2Fe17 (R – Sm, Y) type alloys // Letters on Materials. — 2015. — Vol. 5. No. 4. P. 437-441. [PDF] [URL]

  37. Rybalka S.B., Dodonova E.V. Kinetics of hydrogen-induced reverse phase transformation in Y2Fe17 hard magnetic alloy // Letters on Materials. — 2014. — Vol. 4. No. 4. P. 230-232. [PDF] [URL]

  38. Goltsov V.A., Rybalka S.B., Vasil’ev A.G. Hydrogen-induced diffusive phase transformations in alloys of hydride-forming and nonhydride-forming metals // Int. Scientific J. Alternative Energy and Ecology. — 2014. No. 1. P. 175-197. (in Russian) [URL] [PDF]

  39. Dodonova E.V., Rybalka S.B. Kinetics of hydrogen-induced direct phase transformation in Y2Fe17 hard magnetic alloy  // Letters on Materials. — 2013. — Vol. 3. No. 3. P. 209-211. [PDF] [URL]

  40. Rybalka S.B. Nanocrystalline microstructure formation during hydrogen-induced phase transformations in Nd2Fe14B hard magnetic alloy // Letters on Materials. — 2012. — Vol. 2. No. 1. P. 49-53. [PDF] [URL]

  41. Rybalka S.B., Dodonova E.V., Skokov K. P. The kinetics of growth of new phases during hydrogen-induced phase transformations in Sm2Fe17  hard magnetic alloy // Bull. South Ural State University: Mathematics, Mechanics, Physics. — 2011. — Vol. 32. No. 5. P. 109-114. (in Russian) [URL] [PDF]

  42. Rybalka S.B. Growth kinetics of Nd2Fe14B phase during hydrogen-induced reverse phase transformation in Nd2Fe14B type nanocrystalline magnetic alloy // Materials Sciences and Applications. - 2011. – Vol. 2. - No. 8. P. 1109-1115. [URL] [PDF]

  43. Rybalka S.B. Effect of hydrogen pressure on growth kinetics of Nd2Fe14B phase during hydrogen-induced reverse phase transformation in Nd2Fe14B type hard magnetic alloy // Letters on Materials. – 2011. – Vol. 1. - No. 2. P. 96-101. [URL]

  44. Rybalka S.B. Analysis of influence of hydrogen pressure on kinetics of hydrogen-induced direct phase transformation in Nd2Fe14B type magnetic alloy // Functional Materials. – 2011. – Vol. 18, No. 2. – P. 189-194. [PDF]

  45. Rybalka S.B. Kinetic equation for hydrogen induced direct phase transformation in Nd2Fe14B hard magnetic alloy // Bull. Donetsk National University: А. Natural Sciences. – 2010. – No. 2. – P. 168-173. [PDF]

  46. Goltsov V. A., Dodonova E.V., Rybalka S. B., Skokov K. P., Pastushenkov Yu. G. The kinetics of hydrogen-induced diffusive phase transformations in Sm2Fe17  alloys // Int. J. Nuclear Hydrogen Production and Applications.– 2009. –  Vol. 2. – No. 1. - P. 42-54. [URL] [PDF]

  47. Goltsov V.A., Dodonova E.V., Rybalka S.B., Volkov A.F. Hydrogen-induced diffusive phase transformations in Nd2Fe14B and Sm2Fe17  hard magnetic alloys // Physicochemical Mechanics of Materials.– 2008. – Vol. 44. – No. 5. - P. 105-111. [URL]

  48. Hol'tsov V.O., Dodonova O.V., Rybalka S.B., Volkov O.F. Hydrogen-induced diffusion phase transformations in Nd2Fe14B and Sm2Fe17  magnetically hard alloys // Materials Science.– 2008. – Vol. 44. – No. 5. - P. 708-715. [URL] [PDF]

  49. Rybalka S.B., Dodonova E.V., Didus V.A. Some kinetic and microstructural aspects during hydrogen- induced phase transformations in Nd2Fe14B alloys // J. Alloys Comp.– 2005. – Vol. 404-406. – P. 588-594. [URL] [PDF] 

  50. Didus V.A., Rybalka S.B., Dodonova E.V., Goltsov V.A. The effect of hydrogen pressure and temperature on kinetics of hydrogen-induced direct phase transformation in Nd15Fe77B8 hard magnetic alloy // J. Alloys Comp. – 2005. – Vol. 404-406. – P. 351-354. [URL] [PDF]

  51. Didus V.A., Dodonova E.V., Rybalka S.B. Investigation of a temperature and hydrogen pressure effect on kinetics of phase transformations in Nd2Fe14B alloy // Bull. Donetsk National University: А. Natural Sciences. – 2005. – No. 1. – P. 244-250. [DJVU]

  52. Rybalka S.B., Goltsov V.A., Didus V.A. and Fruchart D. Fundamentals of the HDDR treatment of Nd2Fe14B type alloys // J. Alloys Comp.- 2003. – Vol. 356-357. – P. 390-394. [URL] [PDF]

  53. Didus V.A., Rybalka S.B., Fruchart D. and Goltsov V.A. Influence of hydrogen pressure on the kinetics of hydrogen-induced diffusive phase transformations in the Nd2Fe14B alloy // J. Alloys Comp.- 2003. – Vol. 356-357. – P. 386-389. [URL] [PDF]

  54. Rybalka S.B. Theoretical analysis of reverse hydrogen-induced diffusive phase transformation kinetics in Nd15Fe77B8 alloy // Functional Materials. – 2002. – Vol. 9, No. 3. – P. 405-408. [PDF]

  55. Didus V. A., Goltsov V.A., Rybalka S.B. Kinetics of hydrogen-induced diffusive phase transformations in Nd15Fe77B8 alloy // Trans. Donetsk National Technical University: Metallurgy. – 2002. – Issue 40. – P. 90-93. (in Russian) [DJVU]

  56. Rybalka S.B. Analysis of kinetics of the hydrogen-induced reverse phase transformation kinetics in Nd2Fe14B hard magnetic alloy // Bull. Donetsk University: А. Natural Sciences.- 2002. – No. 1. – P. 286-290. [DJVU]  [PDF

  57. Didus A.A., Rybalka S.B., Didus V.A., Volkov A.F. Microstructure change during hydrogen-induced phase transformations in Nd15Fe77B8 alloy // Bull. DonGASA.-2001. – Issue 3(28).- Vol. 1- P. 15-17. (in Russian)  [DJVU]

  58. Goltsov V.A., Rybalka S.B., Volkov A.F., Putilov Yu.G. and Didus V.A. Effect of hydrogen pressure on the kinetics of the hydrogen-induced diffusional phase transformation in an R2Fe14B alloy // The Physics of Metals and Metallography.- 2000.- Vol. 89, No. 4.- P. 363-366. [URL] [PDF]

  59. Goltsov V.A., Rybalka S.B., Volkov A.F., Putilov Yu.G. and Didus V.A. Effect of hydrogen pressure on the kinetics of the hydrogen-induced diffusional phase transformation in an R2Fe14B alloy // Fizika metallov i metallovedenie.- 2000.- Vol. 89, No. 4.- P. 48-52. [URL] (in Russian)

  60. V.A. Didus, S.B. Rybalka, V.A. Goltsov. Kinetics of the hydrogen-induced diffusive phase transformation in Nd2Fe14B type alloy at higher hydrogen pressure // Int. Scientific J. Alternative Energy and Ecology.- 2000. - Vol. 1. - P. 166. [DJVU] [URL]

  61. Goltsov V.A., Rybalka S.B., Volkov A.F., Subbotin V.V., Putilov Yu.G. Kinetics of the hydrogen-induced direct diffusive phase transformation in industrial alloy of R2Fe14B type // Metal Physics and Advanced Technologies. - 1999.- Vol. 21, No. 9. - P. 22-25. [PDF] [URL]

  62. Goltsov V.A., Rybalka S.B., Volkov A.F. Kinetics of the hydrogen-induced diffusive phase decomposition in industrial alloy of the Nd-Fe-B type // Int. J. Hydrogen Energy.- 1999.- Vol. 24.- P. 913-917. [URL] [PDF]

  63. Goltsov V.A., Rybalka S.B., Volkov A.F., Subbotin V.V., Putilov Yu.G. Effect of hydrogen pressure on kinetics of diffusive phase decomposition R2Fe14B type alloy // The Physics of Higher Pressure. - 1999.- Vol. 9, No. 1- P. 76-80. (in Russian) [DJVU] [URL]

  64. Goltsov V.A., Rybalka S.B., Volkov A.F., Subbotin V.V., Putilov Yu.G. Kinetics of hydrogen-induced forward and reverse diffusional phase transformations in an R2Fe14B hard magnetic alloy // The Physics of Metals and Metallography.- 1999.- Vol. 87, No. 6.- P. 543-546. [URL] [PDF]

  65. Goltsov V.A., S.B.Rybalka, A.F.Volkov. Kinetics of the hydrogen-induced direct and reverse diffusive phase transformation in industrial alloy of Nd2Fe14B type // Functional Materials.– 1999.– Vol. 6, No. 2.– P. 326-330.  [PDF] [URL]

  66. Rybalka S.B., Didus V.A., Volkov A.F. Effect of hydrogen pressure on the kinetics of the hydrogen-induced direct and reverse diffusive phase transformation in R2Fe14B type alloy // Bull. UGTU-UPI. – 1999. – Vol. 1. – P. 42-44. (in Russian) [DJVU]

  67. Goltsov V.A., Rybalka S.B., Volkov A.F., Subbotin V.V., Putilov Yu.G. Kinetics of hydrogen-induced forward and reverse diffusional phase transformations in an R2Fe14B hard magnetic alloy // Fizika metallov i metallovedenie.- 1999.- Vol. 87, No. 6.- P. 87-91.  [URL] (in Russian)

   CONFERENCE and SYMPOSIUM ABSTRACTS

  1. A.S. Lyubochkin, S.B. Rybalka. Calculation of the SPICE macromodel of the high-voltage diode 2D187A in a wide temperature range // Proc. 79th Conf. of students, Russia. — 2024. — P. 1009-1011. [PDF] (in Russian)

  2. S.B. Rybalka, A.A. Demidov, E.A. Kulchenkov, K.S. Pilipenko. Radiation behaviour study of linear voltage regulator // Book of Abstract 11th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2024", Saint-Petersburg, Russia. — 2024 — P. 284-285. [PDF]

  3. K.S. Pilipenko, E.A. Kulchenkov, S.B. Rybalka, A.A. Demidov. Method for increasing of the voltage regulator radiation hardness // Book of Abstract 11th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2024", Saint-Petersburg, Russia. — 2024 — P. 286-287. [PDF]

  4. A.S. Sidorenkova, S.B. Rybalka. Calculation of the model of a constant-current source // Proc. 78th Conf. of students, Russia. — 2023. — P. 291-292. [PDF] (in Russian)

  5. A.A. Kamashina, S.B. Rybalka. SPICE model of the 2T231 bipolar transistor of n-p-n type // Proc. 78th Conf. of students, Russia. — 2023. — P. 269-271. [PDF] (in Russian)

  6. M.A. Torkunov, S.B. Rybalka. Kinetics of hydrogen-induced phase transformations in Er2Fe14B alloy// Proc. XXI Int. Conf. "Ural School for Young Metal Scientists", Yekaterinburg, Russia. — 2022. — P. 200-204. [DJVU]

  7. K.A. Drobyshevsky, S.B. Rybalka. SPICE model of a high-voltage silicon carbide Schottky diode // Proc. 77th Conf. of students, Russia. — 2022. — P. 694-695. [DJVU] (in Russian)

  8. M.A. Torkunov, S.B. Rybalka. Effect of hydrogen pressure on the kinetics of the phase recombination of the R2Fe14B hard magnetic alloy // Proc. V Int. school for youth scientists "Material sciences and physics of metals of light-weight alloys", Yekaterinburg, Russia. — 2021. — P. 56-58. [DJVU]

  9. S.V. Sedykh, S.B. Rybalka, E.A. Kulchenkov, A.A. Demidov. Silicon carbide of 4H-SiC type Schottky diode current-voltage characteristics in small-sized type metal-polymeric package SOT-89 // Book of Abstract 8th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2021", Saint-Petersburg, Russia. — 2021 — P. 486-487. [PDF]

  10. D.A. Knyaginin, E.A. Kulchenkov, S.B. Rybalka, A.A. Demidov. Study of characteristics of n-p-n type bipolar power transistor in small-sized metalpolymeric package type SOT-89 // Book of Abstract 8th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2021", Saint-Petersburg, Russia. — 2021 — P. 466-467. [PDF]

  11. E.V. Karaseva, E.D. Bashmakova, M.A. Maksimenkov, S.B. Rybalka. Modeling of the silicon carbide Schottky diodes in SOT-89 small-sized  metalpolymeric package // Proc. 76th Conf. of students, Russia. — 2021. — P. 733-735. [DJVU] (in Russian)

  12. D.S. Titov, S.B. Rybalka. Characteristics calculation of the silicon carbide Schottky diodes for small metalpolymeric package // Proc. 75th Conf. of students, Russia. — 2020. — P. 826-827. [DJVU] (in Russian)

  13. D.S. Titov, S.B. Rybalka, A.A. Lebedeva, I.O. Machikhina. Determination of phases speed growth during phase transformation in R2Fe14B type alloy // Proc. XX Int. Conf. "XX Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2020. — P. 324-327. [DJVU] [URL]

  14. A.A Sviridova, A.A. Lebedeva, S.B. Rybalka, O.A. Shishkina, O.V. Shcherbakova. Calculation of isothermal kinetic diagram of phase transformation in Sm2Fe17 alloy // Proc. XX Int. Conf. "XX Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2020. — P. 320-323. [DJVU] [URL]

  15. S.V. Sedykh, S.B. Rybalka, E.A. Kulchenkov, A.A. Demidov, A.Yu. Drakin, N.A. Bryukhno, I.V. Kuftov. Test element for high voltage SiC Schottky diodes quality control // Book of Abstract 7th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2020", Saint-Petersburg, Russia. — 2020. — P. 424-425. [PDF] [URL]

  16. D.A. Knyaginin, S.B. Rybalka, E.A. Kulchenkov, A.A. Demidov, N.A. Zhemoedov, A.Yu. Drakin. dV/dt testing of high voltage 4H-SiC Schottky diodes with different types of metal-polymeric packages // Book of Abstract 7th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2020", Saint-Petersburg, Russia. — 2020. — P. 438-439. [PDF] [URL]

  17. A.A. Sviridova, S.B. Rybalka, M.V. Ivanova, S.V. Kipen'. Kinetics description of reverse phase transformations in Sm2Fe17 alloy on the basis of Kolmogorov's model // Proc. IV Int. school for youth scientists "Material sciences and physics of metals of light-weight alloys", Yekaterinburg, Russia. — 2019. — P. 75-78. [DJVU] [URL]

  18. Mos'kin M.E., Kipen' S.V., Rybalka S.B. Determination of dV/dt characteristics of silicone carbide Schottky diodes // Proc. 74th Conf. of students, Russia. — 2019. — P. 818-819. [DJVU] (in Russian)

  19. S.V. Sedykh, S.B. Rybalka, A.Yu. Drakin, A.A. Demidov, E.A. Kulchenkov. Determination of dV/dt values for domestic SiC Schottky diodes // Book of Abstract 6th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2019", Saint-Petersburg, Russia. — 2019. — P. 511-512. [PDF]

  20. D.A. Knyaginin, S.B. Rybalka, A.Yu. Drakin, A.A. Demidov. Ti/4H-SiC Schottky diode with breakdown voltage up to 3 kV // Book of Abstract 6th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2019", Saint-Petersburg, Russia. — 2019. — P. 487-488. [PDF]

  21. L.V. Panchenko, Rybalka S.B. Kinetics study of hydrogen-induced reverse phase transformation in Y2Fe17 alloy // Proc. 4th multidisciplinary scientific forum with international participation "New Materials and Advanced Technologies", Moscow, Russia. — 2018. — Vol. 2 — P. 554-557. [PDF]

  22. L.V. Panchenko, Rybalka S.B., Krayushkina E.Yu. Kinetics of hydrogen-induced reverse phase transformation in Y2Fe17 alloy on the basis of Kolmogorov's model // Proc. XIX Int. Conf. "XIX Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2018. — P. 71-75. [DJVU]

  23. S.V. Sedykh, S.B. Rybalka, A.Yu. Drakin, A.A. Demidov. Ti/4H-SiC Schottky diode breakdown voltage with different thickness of 4H-SiC epitaxial layer // Book of Abstract 5th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2018", Saint-Petersburg, Russia. — 2018.— P. 500-501. [PDF]

  24. D.A. Knyaginin, A.Yu. Drakin, S.B. Rybalka, A.A. Demidov. Increase of accuracy of capacitance parameters measurements of power semiconductor modules on base IGBT and FRD // Book of Abstract 5th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2018", Saint-Petersburg, Russia. — 2018.— P. 488-489. [PDF]

  25. Perepechko V.A., Rybalka S.B. Calculation of dV/dt change in Schottky diode under the reverse bias voltage feed // Proc. 73th Conf. of students, Russia. —2018. — P. 628-630. [DJVU] (in Russian)

  26. Lebedeva A.A., Dodonova E.V., Rybalka S.B. Analysis of hydrogen-induced direct phase transformation kinetics in Y2Fe17 alloy on the base of Kolmogorov's model // Proc. XVIII Int. Conf. "XVIII Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2017.— P. 230-234. [URL]

  27. P.V. Panchenko, A.A. Malakhanov, S.B. Rybalka, A.A. Demidov. Calculation of 4H-SiC epitaxial layer thickness effect on breakdown voltage of Ti/4H-SiC Schottky diode // Proc. 19th Russian Youth Conference on Physics of Semiconductors and Nanostructures, Opto- and Nanoelectronics, Saint-Petersburg, Russia. — 2017.— P. 106. [DJVU] (in Russian)

  28. Khodus K.S., Rybalka S.B. Analysis of kinetics of direct hydrogen-induced phase transformation in R2Fe17 hard magnetic alloy // Proc. Int. scientific Conf. for students, post-graduated and young scientists on fundamental science "Lomonosov-2017": Physics, Moscow, Russia. — 2017. — P. 629-631. [DJVU]

  29. Litvinchev K.A., Rybalka S.B. LIGO interferometer using for gravitation waves fixation // Proc. 72th Conf. of students, Russia. —2017. — P. 941-943. [DJVU] (in Russian)

  30. P.V. Panchenko, S.B. Rybalka, A.A. Malakhanov, A.A. Demidov. Silicon carbide of Ni/6H-SiC and Ti/4H-SiC type Schottky diode current-voltage characteristics modelling // Book of Abstract 4th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures "Saint-Petersburg OPEN 2017", Saint-Petersburg, Russia. — 2017.— P. 546-547. [PDF]

  31. Khodus K.S., Rybalka S.B. Model for kinetics of hydrogen-induced direct phase transformations in R2Fe17 (R – Sm, Y) type alloys // Proc. XVII Int. Conf. "XVII Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2016.— Vol. 1. — P. 146-151. [URL]

  32. Panchenko P.V., Rybalka S.B., Malakhanov A.A., Krayushkina E.Yu., Rad'kov A.V. I-V characteristics simulation of silicon carbide Ti/4H-SiC Schottky diode // Book of Abstract International Conference “Micro- and Nanoelectronics – 2016” (ICMNE-2016), Zvenigorod, Russia. — 2016.— P. 210. [PDF]

  33. Krayushkina E.Yu., Rybalka S.B., Yurasova V.Yu. Formation of ultrafine nanocrystalline microstructure during hydrogen-induced reversible phase transformations in Nd2Fe14B type  magnetic alloy // IHISM'15 Junior: Proc. X International School for young scientists named after A.A. Kyrdumov 'Interaction of Hydrogen isotopes with structural Materials', Sarov, Russia. — 2016. — P. 108-118. [DJVU] (in Russian)

  34. Khodus K.S., Rybalka S.B. Microstructure changing of Nd2Fe14B hard magnetic alloy during phase-structural transformations in hydrogen atmosphere // Proc. III Russian young scientists conference in Chemical Physics Progress, Chernogolovka, Russia. — 2016.— P. 198. [URL] [URL] (in Russian)

  35. Shestakov R.M., Rybalka S.B. Controlling stage determination of the phase decomposition process of the Y2Fe17 alloy // Proc. XV Russian student's conference in Physics State Solids, Tomsk, Russia. — 2016.— P. 112-114. [PDF] (in Russian)

  36. Bogomolov S.A., Rybalka S.B. Kinetic equation for hydrogen-induced direct phase transformations in Y2Fe17 magnetic alloy // Proc. XVI Int. Conf. "XVI Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2015.— Vol. 2. — P. 68-71.  [URL]

  37. Vasilieva D.E., Rybalka S.B. Hydrogen atoms diffusion calculation in Y2Fe17 hard magnetic alloy // Proc. XV Int. Conf. "XVI Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2015.— Vol. 2. — P. 94-96. [URL] (in Russian)

  38. Krugovykh A.A., Rybalka S.B. Ultrathin on polymer-based organic solar cell // Proc. 70-th Conf. of students, Russia. —2015. (in Russian)

  39. Krayushkina E.Yu., Rybalka S.B., Yurasova V.Yu. Formation of ultrafine nanocrystalline microstructure during hydrogen-induced reversible phase transformations in Nd2Fe14B type  magnetic alloy // Proc. X International School for young scientists named after A.A. Kyrdumov 'Interaction of Hydrogen isotopes with structural Materials', Moscow, Russia. — 2015. — P. 89-90.

  40. Yurasova V.Yu., Rybalka S.B. Y2Fe17 phase growth kinetics during reverse phase transformation in Y2Fe17 magnetic alloy // Proc. XV Int. Conf. "XV Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2014.— P. 205-208. [URL]

  41. Shilina M.A., Rybalka S.B. Decomposition kinetics during direct phase transformation in Y2Fe17 magnetic alloy // Proc. XV Int. Conf. "XV Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. — 2014. — P. 233-236. [URL]

  42. Goltsov V.A., Rybalka S.B., Vasil’ev A.G. Hydrogen-induced diffusive phase transformations in alloys of hydride-forming and nonhydride-forming metals // Letters in Int. Scientific J. Alternative Energy and Ecology. — 2014. No. 2. P. 14-16. [URL]

  43. Goltsov V.A., Rybalka S.B., Vasil’ev A.G. Hydrogen-induced diffusive phase transformations in alloys of hydride-forming and nonhydride-forming metals // Letters in Int. Scientific J. Alternative Energy and Ecology. — 2014. No. 2(2). P. 22-25. (in Russian) [URL]

  44. Rybalka S.B., Dodonova E.V., Kobetskaya E.A. Kinetics of hydrogen-induced direct phase transformation in Y2Fe17 nanocrystalline magnetic alloy // Proc. II All-Russian scientific and technical conference youth scientists, post-graduates and students "High Technologies in Modern Science and Technics", Tomsk, Russia. — 2013. — Vol. 2. — P. 46-50. [PDF]

  45. Dodonova E.V., Rybalka S.B., Kobetskaya E.A. Hydrogen effect of hydrogen pressure on growth rate of phases during hydrogen-induced direct phase transformations in Nd2Fe14B type hard magnetic alloy // Proc. All-Russian Youth Scientific School "Chemistry and technology of polymeric and composite materials", Moscow, Russia. — 2012. — P. 131. (in Russian) [URL] [PDF]

  46. Dodonova E.V., Rybalka S.B. Formation of nanocrystalline microstructure during hydrogen-induced phase transformations in Nd2Fe14B hard magnetic alloy // Proc. III Russian Conference of Young Scientist with elements of the scientific school 'Functional nanomaterials and high-purity substances', Moscow, Russia. — 2012. — P. 209-210. (in Russian) [URL] [PDF]

  47. Volkov A.F., Rybalka S.B., Dodonova E.V., Volkova A.A. Growth kinetics of new phases during hydrogen-induced phase transformation Sm2Fe17 alloy // Proc. IV International Conference 'Interaction of Hydrogen isotopes with structural Materials', Voronezh, Russia. — 2010. — P. 48-51. (in Russian and English) [PDF]                       Back to Top

  48. Nikolaev S.P., Rybalka S.B., Kilman G.V. Hydrogen atoms diffusion calculation in Sm2Fe17 hard magnetic alloy // Proc. III International Conference of young scientists "KoMU-2010", Izhevsk, Russia. — 2010. — P. 71-72. (in Russian) [PDF]

  49. Rybalka S.B., Volkov A.F., Volkova A.A. Hydrogen-induced phase transformation kinetics in Nd2Fe14B alloy // Proc. III International Conference 'Interaction of Hydrogen isotopes with structural Materials', Sarov, Russia. — 2008. — P. 225-229. (in Russian)  [PDF]

  50. Volkov A.F., Rybalka S.B., Volkova A.A. Hydrogen-induced phase transformation kinetics in Nd2Fe14B alloy // Book of Abstracts 3-rd International Conference and International School for Young Scientists 'Interaction of Hydrogen isotopes with structural Materials' (IHISM-07), St-Petersburg, Russia. — 2007. — P. 240-244. [PDF]

  51. Goltsov V. A., Dodonova E.V., Rybalka S.B., Skokov K. P., Pastushenkov Yu. G. The kinetics of hydrogen-induced diffusive phase transformations in Sm2Fe17  alloys  // Proc. V International Conference "Hydrogen economy and hydrogen Treatment of Materials" (HTM-2007), Donetsk. — 2007. — Vol. 2. — P. 596-600. (in Russian) [PDF]

  52. Dodonova E.V., Rybalka S.B., Skokov K. P. The kinetics of hydrogen-induced phase transformations in Nd2Fe14B and Sm2Fe17 hard magnetic alloys // Proc. International Forum "Hydrogen technologies for Energy Production" (HTEP-2006), Moscow, Russia. — 2006. — P. 131-133. [PDF] (in Russian)

  53. Didus V.A., Rybalka S.B., Dodonova E.V. Some kinetic and microstructural aspects during hydrogen- induced phase transformations in Nd2Fe14B alloys // Book of Abstracts Int. Symp. on Metal-Hydrogen Systems – Fundamentals and Applications "MH-2004", Cracow, Poland. – 2004. – P. 135. [URL] Abstract [DJVU]

  54. Didus V. A., Rybalka S. B., Dodonova E.V., Goltsov V.A. The effect of hydrogen pressure and temperature on kinetics of hydorgen induced direct phase transformation in Nd15Fe77B8 hard magnetic alloy // Book of Abstracts Int. Symp. on Metal-Hydrogen Systems – Fundamentals and Applications "MH-2004", Cracow, Poland. – 2004. – P. 135. [URL] Abstract [DJVU]

  55. Markeev D.V., Rybalka S.B. Diffusion of a hydrogen atoms in Nd2Fe14B alloy // Proc. VI Int. Conf. "VI Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. – 2004. – P. 23 (in Russian)   [PDF]

  56. Didus V. A., Rybalka S.B., Dodonova E.V. Evolution of microstructure in Nd15Fe77B8 alloy during HDDR-process // Proc. IV Int. Conf. “Hydrogen Treatment of Materials” (HTM-2004), Donetsk. - 2004. – Vol. 1.- P. 170-171. (in Russian) [DJVU]

  57. Rybalka S.B.  About influence of interstitial atoms on kinetics of diffusive hydrogen-induced phase transformations in Nd2Fe14B alloys at chemicothermal treatment in hydrogen // Proc. IV Int. Conf. “Equipment and Technologies of Thermal Treatment of Metals and Alloys ”, Kharkov. - 2003. – P. 317-319. (in Russian) [PDF]

  58. Dodonova E.V., Didus V.A., Rybalka S.B. Investigation of a temperature and hydrogen pressure influence on kinetics of phase transformation in Nd2Fe14B alloy at chemical heat treatment in hydrogen atmosphere // Proc. IV Int. Conf. “Equipment and Technologies of Thermal Treatment of Metals and Alloys ”, Kharkov. - 2003. – P. 312-316. (in Russian) [PDF]

  59. Donets T., Rybalka S.B. Influence of kinetics of hydrogen-induced phase transformations in Nd2Fe14B on microstructure // Proc. V Int. Conf. "V Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. – 2003. – P. 6. (in Russian) [PDF]

  60. Koshkarev Ya., Rybalka S.B. Computer simulation of process of a gas diffusion through half-permeable  membrane // Proc. II student  conf. “Physics and scientific-technical progress”, Donetsk. - 2003.- P. 26. (in Russian)

  61. Didus V.A., Dodonova E.V., Rybalka S.B., Goltsov V.A. Investigation of influence of the hydrogen-induced phase transformations on microstructure of Nd2Fe14B type alloy // Proc. IV Int. Conf. “Noble and Rare Metals” (NRM-2003), Donetsk. - 2003. – P. 531-533. (in Russian) [DJVU]

  62. Rybalka S.B., Goltsov V.A., Didus V.A.  and Fruchart D. Fundamentals of the HDDR treatment of Nd2Fe14B type alloys // Book of Abstracts Int. Symp. on Metal-Hydrogen Systems – Fundamentals and Applications, Annecy, France. – 2002. – P. 158. [DJVU]

  63. Didus V.A., Rybalka S.B., Fruchart D., Goltsov V.A. Influence of hydrogen pressure on kinetics of hydrogen-induced diffusive phase transformations in Nd2Fe14B alloy // Book of Abstracts Int. Symp. on Metal-Hydrogen Systems – Fundamentals and Applications, Annecy, France. – 2002. – P. 97. [DJVU]                        Back to Top

  64. Makarenko M.P., Rybalka S.B. Computer simulation of an elastic and unelastic body jolt // Proc. I student  conf. “Physics and scientific-technical progress”, Donetsk. - 2002.- P. 23. (in Russian)

  65. Babay N.G., Rybalka S.B. About influence of hydrogen pressure on kinetics of the direct phase transformation in Nd2Fe14B type alloys // Proc. IV Int. Conf. "IV Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. – 2002. – P. 22. (in Russian) [PDF]

  66. Rybalka S.B. Theoretical analysis of kinetics of the hydrogen-induced direct phase transformation in Nd15Fe77B8 alloy // Proc. III Int. Conf. “Hydrogen Treatment of Materials” (HTM-2001), Donetsk. - 2001.-Vol. 2.- P. 147-149. (in Russian) [DJVU]

  67. Didus V.A., Rybalka S.B., Goltsov V.A., Fruchart D. Investigation of the hydrogen-induced direct phase transformations kinetics in Nd2Fe14B type alloy at higher pressures // Proc. III Int. Conf. “Hydrogen Treatment of Materials” (HTM-2001), Donetsk. - 2001.-Vol. 2.- P. 150-152. (in Russian) [DJVU]

  68. Rybalka S.B., Didus V.A., Goltsov V.A., Didus A.A. Kinetics of hydrogen-induced direct phase transformation in Nd2Fe14B alloy // Proc. III Int. Conf. “Hydrogen Treatment of Materials” (HTM-2001), Donetsk. - 2001.-Vol. 2.- P. 184-186. (in Russian) [DJVU]

  69. Didus V.A., Rybalka S.B., Goltsov V.A. Phase transformations in Nd2Fe14BHx alloy induced by annealing in vacuum // Proc. IV Int. Symp. “Vacuum Equipment and Technologies”, Kharkov. - 2001. – P. 393-396. (in Russian) [DJVU]

  70. Didus V.A., Rybalka S.B. Features of the kinetics of hydrogen-induced direct phase transformation in Nd15Fe77B8 alloy // Proc. II Int. Conf. "II Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. – 2000. – P. 34. (in Russian)

  71. Didus V.A., Goltsov V.A., Rybalka S.B., Volkov A.F. Kinetics of the hydrogen-induced phase transformations in Nd15Fe77B8.intermetallic alloy // Proc. III Int. Conf. “Noble and Rare Metals” (NRM-2000), Donetsk. - 2000. – P. 43. (in Russian)

  72. Goltsov V.A., Rybalka S.B., Didus V.A., Volkov A.F. Kinetics of the hydrogen-induced diffusive phase transformation in intermetalic functionals materials for the permanent magnets of Nd2Fe14B type // Program and abstracts V Russian-Chinese Int. Symp. "Advanced Materials and Processes", Tomsk, Russia. – 1999.- P. 141.

  73. Rybalka S.B., Didus V.A., Volkov A.F., Goltsov V.A. Effect of hydrogen pressure on kinetics of hydrogen-induced direct and reverse phase transformation in R2Fe14B type alloy // Proc. I Int. Conf. "I Uralian school and seminar of young metal scientists", Yekaterinburg, Russia. – 1999. – P. 42-44. (in Russian)

  74. Rybalka S.B., Didus V.A., Volkov A.F. Effect of hydrogen pressure on the kinetics of the hydrogen-induced direct and reverse diffusive phase transformation in R2Fe14B type alloy // Bull. UGTU-UPI. – 1999. – Vol. 1. – P. 42-44. (in Russian) [DJVU]

  75. Puchkova E.V., Rybalka S.B., Baranov A.A., Volkov A.F. Effect of preliminary thermal-hydrogen treatment on spheroidisation of carbides in steel // Bull. DonGASA, Proc. XXV Scientific and Technical Conf. of students. – 1999. – Issue 99-4. – P. 53.

  76. Rybalka S.B., Volkov A.F., Goltsov V.A. Temperature effect on kinetics of diffusive phase decomposition of Nd-Fe-B alloy during hydrogen treatment // Proc. V Int. Scientific and Technical Conf. “Engineering Industry and Technosphere on XXI century Boundary”, Donetsk. –1998. – Vol. 3, Issue 6. – P. 47-49. (in Russian)

  77. Rybalka S.B., Goltsov V.A., Volkov A.F. Kinetics of diffusive phase transformations in neodymium-iron-boron alloy // Proc. II Int. Conf. “Hydrogen Treatment of Materials” (HTM-98), Donetsk. – 1998. – P. 144. (in Russian)

  78. Rybalka S.B., Volkov A.F. Experimental equipment for investigation of the hydrogen-induced transformations kinetics in neodymium-iron-boron alloys // Proc. II Int. Conf. “Noble and Rare Metals” (NRM-97), Donetsk. - 1997. – P. 152-153. (in Russian)

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