Philipp Rybakov
Postdoctoral position at Institutionen för fysik och astronomi; Materialteori
- E-mail:
- philipp.rybakov@physics.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 516
751 20 UPPSALA
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Short presentation
a.k.a. Filipp N. Rybakov, F.N. Rybakov
For recent highlights, see: First experimental evidence of hopfions in crystals opens up new dimension for future technology, Uppsala University News (2023); Study shows that skyrmions and antiskyrmions can coexist at different temperatures, Phys.org News (2022).
Research
First experimental evidence of hopfions in crystals opens up new dimension for future technology, Uppsala University News (2023)
Study shows that skyrmions and antiskyrmions can coexist at different temperatures, Phys.org News (2022)
Exotic property of 'ambidextrous' crystals points to new magnetic phenomena, Phys.org News (2021)
Skyrmion research: Braids of nanovortices discovered, Phys.org News (2021)
Skyrmions have attractive and repulsive tendencies, PhysicsWorld.com (2018)
Researchers observe unique chiral magnetic phenomenon, Phys.org News (2018)
Publications
Selection of publications
- Hopfion rings in a cubic chiral magnet (2023)
- Magnetic hopfions in solids (2022)
- Skyrmion-antiskyrmion pair creation and annihilation in a cubic chiral magnet (2022)
Recent publications
- Tailed skyrmions (2023)
- Heliknoton in a film of cubic chiral magnet (2023)
- Magnetic bubbles with alternating chirality in domain walls (2023)
- Metaheuristic conditional neural network for harvesting skyrmionic metastable states (2023)
- Hopfion rings in a cubic chiral magnet (2023)
All publications
Articles
- Tailed skyrmions (2023)
- Heliknoton in a film of cubic chiral magnet (2023)
- Magnetic bubbles with alternating chirality in domain walls (2023)
- Metaheuristic conditional neural network for harvesting skyrmionic metastable states (2023)
- Hopfion rings in a cubic chiral magnet (2023)
- Magnetic hopfions in solids (2022)
- Chiral standing spin waves in skyrmion lattice (2022)
- Diversity of states in a chiral magnet nanocylinder (2022)
- Skyrmion-antiskyrmion pair creation and annihilation in a cubic chiral magnet (2022)