Biography

Prof. Nikolai A. Sobolev

Departamento de Física

Universidade de Aveiro, Portugal


Email: sobolev@ua.pt


Qualifications

1991 Sr. Researcher, Supreme Classification Board of the USSR

1978 Ph.D., Friedrich Schiller University of Jena, Germany

1973 M.Sc., Friedrich Schiller University of Jena, Germany


Publications (Selected)

  1. Bitinaitis, I., Belosludtsev, A., Suchaneck, G., Wang, S., Gerlach, G., & Sobolev, N. A. (2024, June). Reactive multitarget magnetron sputtering of Sr2FeMoO6 films. In Advances in Optical Thin Films VIII (Vol. 13020, pp. 235-242). SPIE.
  2. Temirov, A. A., Kubasov, I. V., Turutin, A. V., Ilina, T. S., Kislyuk, A. M., Kiselev, D. A., ... & Parkhomenko, Y. N. (2023). Synthesis of silicon-carbon films by induction-assisted plasma-chemical deposition. Modern Electronic Materials, 9(4), 177-184.
  3. Kuts, V. V., Turutin, A. V., Kislyuk, A. M., Kubasov, I. V., Maksumova, E. E., Temirov, A. A., ... & Parkhomenko, Y. N. (2023). Detection of inhomogeneous magnetic fields using magnetoelectric composites. Modern Electronic Materials, 9(3), 105-113.
  4. Kudrin, A. V., Lesnikov, V. P., Kriukov, R. N., Danilov, Y. A., Dorokhin, M. V., Yakovleva, A. A., ... & Sobolev, N. A. (2023). Multilayer Epitaxial Heterostructures with Multi-Component III–V: Fe Magnetic Semiconductors. Nanomaterials, 13(17), 2435.
  5. Andrulevičius, M., Artiukh, E., Suchaneck, G., Wang, S., Sobolev, N. A., Gerlach, G., ... & Tamulevičius, S. (2023). Multitarget reactive magnetron sputtering towards the production of strontium molybdate thin films. Materials, 16(6), 2175.
  6. Turutin, A. V., Skryleva, E. A., Kubasov, I. V., Milovich, F. O., Temirov, A. A., Raketov, K. V., ... & Sobolev, N. A. (2023). Magnetoelectric MEMS Magnetic Field Sensor Based on a Laminated Heterostructure of Bidomain Lithium Niobate and Metglas. Materials, 16(2), 484.
  7. Kuts, V. V., Turutin, A. V., Kislyuk, A. M., Kubasov, I. V., Zhukov, R. N., Temirov, A. A., ... & Parkhomenko, Y. N. (2022). Magnetoelectric effect in three-layered gradient LiNbO3/Ni/Metglas composites. Modern Electronic Materials, 8(4), 141-147.
  8. Peres, M., M Esteves, D., Teixeira, B. M. S., Zanoni, J., Alves, L. C., Alves, E., ... & Lorenz, K. (2022). Enhancing the luminescence yield of Cr3+ in β-Ga2O3 by proton irradiation. Applied Physics Letters, 120(26).
  9. Turutin, A. V., Kubasov, I. V., Kislyuk, A. M., Kuts, V. V., Malinkovich, M. D., Parkhomenko, Y. N., & Sobolev, N. A. (2022). Ultra-sensitive magnetoelectric sensors of magnetic fields for biomedical applications. Nanobiotechnology Reports, 17(3), 261-289.
  10. Andrade, J. M., Rosário, C. M., Menzel, S., Waser, R., & Sobolev, N. A. (2022). Application of the quantum-point-contact formalism to model the filamentary conduction in Ta 2 O 5-based resistive switching devices. Physical review applied, 17(3), 034062.
  11. Suchaneck, G., Kalanda, N., Yarmolich, M., Artiukh, E., Gerlach, G., & Sobolev, N. A. (2022). Magnetization of magnetically inhomogeneous Sr2FeMoO6-δ nanoparticles. Electronic Materials, 3(1), 82-92.
  12. Caçoilo, N., Lequeux, S., Teixeira, B. M. S., Diény, B., Sousa, R. C., Sobolev, N. A., ... & Buda-Prejbeanu, L. D. (2021). Spin-torque-triggered magnetization reversal in magnetic tunnel junctions with perpendicular shape anisotropy. Physical Review Applied, 16(2), 024020.
  13. Suchaneck, G., Kalanda, N., Artiukh, E., Yarmolich, M., & Sobolev, N. A. (2021). Tunneling conduction mechanisms in strontium ferromolybdate ceramics with strontium molybdate dielectric intergrain barriers. Journal of Alloys and Compounds, 860, 158526.
  14. Teixeira, B. M. S., Timopheev, A. A., Caçoilo, N., Cuchet, L., Mondaud, J., Childress, J. R., ... & Sobolev, N. A. (2020). Ar+ ion irradiation of magnetic tunnel junction multilayers: impact on the magnetic and electrical properties. Journal of Physics D: Applied Physics, 53(45), 455003.
  15. Caçoilo, N., Lequeux, S., Teixeira, B. M. S., Dieny, B., Sousa, R. C., Sobolev, N. A., ... & Buda-Prejbeanu, L. D. (2020). Magnetization reversal driven by spin-transfer-torque in perpendicular shape anisotropy magnetic tunnel junctions. arXiv preprint arXiv:2005.06024.


Profile Details

WoS ResearcherID: B-2325-2008

https://orcid.org/0000-0002-9420-8130

https://www.ua.pt/pt/p/10317572

https://scholar.google.com/citations?user=cCyaPSIAAAAJ&hl=en

https://www.researchgate.net/profile/Nikolai-Sobolev

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