Alexandr STUPAKOV
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Contact:

Alexandr Stupakov
Institute of Physics of the Czech Academy of Sciences
Department of Optical and Biophysical Systems
Na Slovance 2, 18221 Praha 8, Czech Republic.
tel: (+420) 26605 2114
mobile: (+420) 773 901135
e-mail: stupak*fzu.cz
web-page: www.fzu.cz/~stupak
Skype: o.stupakov


Curriculum Vitae

First name: Alexandr (Oleksandr until 2014)
Family name: Stupakov
Born: 30th January 1977
Degree: M.Sc., Ph.D.
Marital status: married, have son
Citizenship: Czech Republic (EU)
Languages: English, Czech (fluent); Russian, Ukrainian (native).


EDUCATION:
10.2001 – 6.2006 Charles University, Faculty of Mathematics and Physics, Department of Electronic Structures, Prague, Czech Republic
Thesis “Investigation of magnetic processes of structure degraded ferromagnetic materials”
Ph.D. in the field of Physics of Condensed Matter and Material Research.
9.1999 – 7.2000 Donetsk State University, Faculty of Physics, Pedagogical Department, Donetsk, Ukraine
Diploma of Pedagogue of Physics and Informatics.
9.1994 – 8.1999 Donetsk State University, Faculty of Physics, Theoretical Department, Donetsk, Ukraine
Diploma “Local electron states on the twin boundary”
M.Sc. in the field of Physics (with honors), physicist-engineer.
9.1992 – 7.1994 National Lyceum under Donetsk State University, Specialization Physics, Donetsk, Ukraine.


EMPLOYMENT:
9.2001 – present Institute of Physics of the Czech Academy of Sciences, Department of optical and biophysical systems, Prague, Czech Republic
Scientist
Magneto-resistive study of epitaxial perovskite films and heterostructures under optical excitation;
Magnetic measurements and magnetization dynamic: hysteresis, Barkhausen noise and magneto-acoustic emission.
11.2006 – 11.2008 Tohoku University, Institute of Fluid Science, Advanced Systems Evaluation Laboratory, Sendai, Japan
JSPS postdoctoral fellow
Evaluation of industrial variations and degradation of ferromagnetic materials by magnetic methods.
9.2005 – 11.2005 Iwate University, Faculty of Engineering, Non-Destructive Evaluation & Science Research Center, Morioka, Japan
Scholar Researcher
Development of magnetic measurement system on the base of single-yoke magnetizing setup.
9.2000 – 7.2001 Donetsk State University, Faculty of Physics, Pedagogical Department, Donetsk, Ukraine
Lecturer assistant
Courses of general physics: mechanics, thermodynamics, optics.
11.1999 – 9.2001 Institute for Physics and Engineering, Ukrainian Academy of Science, Department of Phase Transitions, Donetsk, Ukraine
Researcher
Investigation of pressure-induced spin state transitions in iron-based metalloorganic compounds.


GUIDED PROJECTS:
1.2020 – 12.2022 Standard team project GA20-21864S of Czech Science Foundation (GAČR) - 186,000 EUR
Study of nickelate thin films and multilayers for development of novel electro-optical devices.
2.2013 – 12.2015 Standard team project GA13-18993S of Czech Science Foundation (GAČR) - 133,000 EUR
Development and testing of new systems for field-referred measurement of magnetic Barkhausen noise at controllable magnetization conditions.
1.2009 – 12.2011 Individual postdoctoral project GA102/09/P108 of Czech Science Foundation (GAČR) - 33,000 EUR
Development of a new system for measurement of open-circuit ferromagnetic samples with controlled magnetization waveform.
11.2006 – 11.2008 Postdoctoral fellowship P06377 of Japan Society for the Promotion of Science (JSPS) - 86,000 EUR
Evaluation of industrial variations and degradation of ferromagnetic materials by magnetic methods.


AWARDS:
2006 Postdoctoral fellowship of Japan Society for the Promotion of Science (JSPS).
2012 Award of president of the Czech Science Foundation (GAČR).
2016 IOP Outstanding Reviewer Award from Measurement Science and Technology journal.


Practical skills:
1) Development, assembling and programming of magnetic measurement systems: inductive hysteresis, Barkhausen noise, magneto-acoustics emission; experience with magnetic field generation and measurement (Hall sensors and H-coils), GPIB/RS232 control, digital data evaluation (feedback control of magnetization waveform, Fourier transform, filtering, fitting, smoothing).
2) Operation of industrial measurement systems: Quantum Design SQUID (magnetic moment), Quantum Design PPMS (resistivity/thermal transport), aixACCT piezoelectric analyzer with a double-beam interferometer, Linkam temperature stage, HP LF impedance analyzer.
3) Software: LabVIEW, Origin, LaTeX, MathCad, FEMM.



PUBLICATIONS: 56 papers in the impacted international journals, 36 of them by the first author; 1 book chapter; 12 papers in the conference proceedings, see Full publication list. Total citations: 628 (WoS), 712 (Scopus). H-index: 16 (WoS), 17 (Scopus). Researcher ID, Scopus ID, ORCID ID. 21 given talks (3 invited) and 12 poster presentations at the international conferences.

Selected publications

  1. O. Stupakov, T. Uchimoto, T. Takagi, Magnetic anisotropy of plastically deformed low-carbon steel, Journal of Physics D: Applied Physics, Vol. 43, No. 19, art. no. 195003 (7 pages), May 2010. pdf doi-link
  2. O. Stupakov, Controllable magnetic hysteresis measurement of electrical steels in a single-yoke open configuration, IEEE Transactions on Magnetics, Vol. 48, No. 12, pp. 4718-4726, December 2012. pdf doi-link
  3. O. Stupakov, Local non-contact evaluation of the ac magnetic hysteresis parameters of electrical steels by the Barkhausen noise technique, Journal of Nondestructive Evaluation, Vol. 32, No. 4, pp. 405-412, December 2013. pdf doi-link
  4. A. Stupakov, O. Perevertov, V. Zablotskii, A system for controllable magnetic measurements of hysteresis and Barkhausen noise, IEEE Transactions on Instrumentation and Measurement, Vol. 65, No. 5, pp. 1087-1097, May 2016. pdf doi-link
  5. A. Stupakov, A. Perevertov, Dynamic properties of micro-magnetic noise in soft ferromagnetic materials, Journal of Magnetism and Magnetic Materials, Vol. 456, pp. 390-399, June 2018. pdf doi-link
  6. A. Stupakov, Dynamic normalization of the Barkhausen noise signal, Journal of Magnetism and Magnetic Materials, Vol. 482, pp. 135-147, July 2019. pdf doi-link
  7. A. Stupakov, Chapter 2 "Measurement methods" in Barkhausen Noise for Non-destructive Testing and Materials Characterization in Low Carbon Steels, Ed.: Tu Le Manh et al, Woodhead Publishing Series in Electronic and Optical Materials, Elsevier, June 2020, pp. 25-71 (276 pages total), ISBN: 9780081028001. pdf doi-link
  8. A. Stupakov, A. Perevertov, Analog of the induction law for the magnetic Barkhausen noise, Journal of Magnetism and Magnetic Materials, Vol. 498, art. 166238 (5 pages), 15 March 2020. pdf doi-link
  9. A. Stupakov, A. Perevertov, M. Neslušan, Reading depth of the magnetic Barkhausen noise. I. One-phase semi-hard ribbons, Journal of Magnetism and Magnetic Materials, Vol. 513, art. 167086 (12 pages), 1 November 2020. pdf doi-link
  10. A. Stupakov, A. Perevertov, M. Neslušan, Reading depth of the magnetic Barkhausen noise. II. Two-phase surface-treated steels, Journal of Magnetism and Magnetic Materials, Vol. 513, art. 167239 (9 pages), 1 November 2020. pdf doi-link

Last update: 25th of September 2020