Interests:
Monte Carlo methods
Simulation of magnetic nanosystems
- Ph.D. student
- Assistant in Department of Computer Systems, Far Eastern Federal University
- Researcher in Institute of Applied Mathematics, Far Eastern Branch of Russian Academy of Sciences
Career Summary
Investigation of phenomena of geometrically frustrated systems by using supercomputer simulations with applying parallel Monte-Carlo algorithms for calculation of statistical thermodynamic properties of magnetic systems.
In June of 2017, I defended Ph.D. thesis titled “Thermodynamic properties of frustrated spin systems”. As main theses:
- I proposed and justified the order parameter for square spin ice systems;
- proved the lack of phase transition for short-range interacting dipolar model of square, kagome and shakti spin ice lattices, comparing in with infinite-range interactions;
- elucidated the reasons of non-linear behavior of residual entropy as function of dilution concentration for antiferromagnetic Ising spins on pyrochlore, kagome and triangular lattices.
Publications
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Education
Master degree in Information Systems and Technologies (2014)
Institution: Far Eastern Federal University, Vladivostok, Russia.
Specialist (eq. Master) degree in Applied Informatics (in Economics) (2012)
Institution: Far Eastern Federal University, Vladivostok, Russia.
Funding
- (2018-2020)
Grant of the President of the Russian Federation for young scientists and graduate students, in frames of priority direction “Strategic information technology, including the creation of supercomputers and software development”, Personal project (3500 Eur/year) – Development of algorithms for energy minimization and calculation of the density of states of magnetic nanoparticle arrays; - (2017-2018) Russian-German DAAD program “Mikhail Lomonosov”, Line “A”, Personal project (15000 Eur/6 months) – Magnetic states, phase transitions and behavior of spin systems;
- (2015-2016) Support Program for priority post-graduate and doctoral students of Far Eastern Federal University, Personal project (6400 Eur / year) – Magnetic phenomena in systems of interacting particles
- (2014-2017) Grant of the President of the Russian Federation for young scientists and graduate students, in frames of priority direction “Strategic information technology, including the creation of supercomputers and software development”, Personal project (3500 Eur/year) – Numerical simulation of spin-ice and spin-glass states of arrays of magnetic nanoparticles
- (2013-2014) FEFU grant, Project participant – Development of parallel high-performance software and modernization of FEFU’s supercomputer to solve an actual problems of Industry of nanosystems and nanomaterials
- (2010 – 2012) State assignment, Project participant – Magnetic properties and spin-transport phenomena in nanoscale condensed matter