Fistul Mikhail V.Ph.D. in Physics and Mathematics, Project Leader “Theoretical Studies of the Physical Principles of Quantum Synchronization in Systems of Interacting Josephson Junctions”
Ph.D. in Physics and Mathematics, Project Leader “Theoretical Studies of the Physical Principles of Quantum Synchronization in Systems of Interacting Josephson Junctions” Leading Researcher at NUST MISIS (Russia) and Ruhr University Bochum (Germany)
Dr. Mikhail V. Fistul is recognized for his theoretical and experimental contributions to the physics of superconducting systems and nanostructures.
His major achievements include:
- Resonant tunneling of superconducting pairs in Josephson junctions with semiconductor barriers;
- Hopping conductivity in thin amorphous semiconductor films;
- Study of the critical current in Josephson junctions (layered superconductors) containing Abrikosov vortices;
- Discovery and theoretical modeling of macroscopic quantum effects of Josephson vortices and vortex—antivortex pairs;
- Development of the concept of macroscopic Coulomb blockade in Josephson junction arrays and the “superinsulator” regime;
- Analysis of photocurrent generation in graphene nanostructures;
- Investigation of metal—insulator transitions in nanocrystalline graphene.
He is the author of over 90 research papers published in peer-reviewed international journals and co-author of two scientific monographs.
- Macroscopic quantum effects in superconducting Josephson systems;
- Quantum computers based on superconducting systems;
- Superconducting metamaterials;
- Physics of graphene nanostructures;
- Quantum effects in nanocrystalline systems;
- Charge transport in low-dimensional systems under microwave irradiation.
Hirsch Index: 20