Maksim joined INL within the framework of the RadiSpin project in October 2022. His main task will be obtaining and optimisation of tunnel junction-based nanooscillators for building a hardware neural network.

The main topic of his previous research over the last years was current-induced magnetisation processes (magnetisation reversal, domain wall motion, exchange bias field switching) in structures based on ferro/ferri/antiferromagnetic materials (Pt/Co/MgO, W/CoTb/Ru, Pt/Co/NiO). This work included the samples prepared in a clean room; study of structural, magnetic, and transport properties of the prepared samples; interpretation of the measurement results by means of micromagnetic simulation; analysis of the results and writing of the articles/reports.

Maksim holds a Master’s degree in Physics (2009) and a PhD (2013) from Far Eastern Federal University in Vladivostok, Russia. He currently has 54 peer-reviewed articles, an h-index of 10, and received over 300 citations.

• Stebliy, M.E., Kolesnikov, A.G., Samardak, A.S.
  Current-Induced Manipulation of the Exchange Bias in a Pt/Co/NiO Structure
  ACS Applied Materials and Interfaces, 13(35), 42258 (2021)

• C. H. Wan, M. E. Stebliy, A. S. Samardak
  Gradual magnetization switching via domain nucleation driven by spin-orbit torque
  Applied Physics Letters 3, 118 (2021)

• Nogaret, A., Stebliy, M., Portal
  Ballistic Hall Photovoltammetry of Magnetic Resonance in Individual Nanomagnets
  Physical Review Letters, 126(20), 207701 (2021)

• M.E. Stebliy, A.G. Kolesnikov
  Advanced method for reliable estimation of the spinorbit torque efficiency in low coercive ferromagnetic multilayers
  Phys. Rev. Applied 11, 054047 (2019)

• A.G. Kolesnikov, M.E. Stebliy
  Skyrmionium – high velocity without the skyrmion Hall effect
  Scientific Reports 8, 16966 (2018)