Since 2015 Sergey Artyukhin is leading Quantum Materials Theory research line at IIT. His interests are in realistic modelling of a broad range of phenomena in condensed matter, related to ground state properties, excitations, switching and photoexcited dynamics, particularly in materials with complex ferroic orders. He graduated from Moscow Institute for Physics and Technology in 2007 and completed his PhD on modelling frustrated magnets and multiferroics working with M. Mostovoy at University of Groningen (NL). He then worked as a postdoc with D. Vanderbilt, K. Rabe, closely collaborating with S.-W. Cheong and K. Haule at Rutgers, bridging state of the art first-principles calculations (DFT, DMFT) with model Hamiltonians.
Sergey Artyukhin
Principal Investigator
Senior Researcher Tenure Track - Principal InvestigatorQuantum Materials Theory
Phone
+39 010 2896 834
Research center
CCT@Morego
Interests
Materials Theory
Ferroics and Multiferroics
Density Functional Theory and beyond
Theoretical spectroscopy
About
All Publications
2025
Ryzhkov M., Granero A., Wettstein J., Pimenov A., Wang X., Ponet L., Cheong S., Mostovoy M., Pimenov A., Artyukhin S.
Controllable switching pathways in a multiferroic
Communications Materials
Article in Press
Journal
2025
Foggetti F., Parodi M., Nagaosa N., Artyukhin S.
Electric field-induced domain wall motion in spin spiral multiferroics
Newton
Article in Press
Journal
2025
Faraji M., Putatunda A., Schleusener A., Artyukhin S., Krahne R.
Group IV binary carbides with double layer honeycomb lattice structure
Journal of Applied Physics, vol. 138, (no. 8)
Article
Journal
2025
Diona P., Maranzana L., Artyukhin S., Sala G.
Observation of relativistic domain wall motion in amorphous ferrimagnets
Advanced Functional Materials
Article in Press
Journal
2025
Maranzana L., Mostovoy M., Nagaosa N., Artyukhin S.
Spiral multiferroics as a natural skyrmion racetrack
Communications Physics
Organized Events
2022
Artyukhin S.
Quantum materials: ultrafast dynamics and control - CECAM
2021
Artyukhin S., Chen P.
Bridging first-principles calculations and effective Hamiltonians