Ekaterinburg, 620108
Russia
Russian Academy of Sciences (RAS) - M.N. Mikheev Institute of Metal Physics
nickelate superconductors, superconducting gap symmetry, London penetration depth, lower critical field
hydride superconductor, upper critical field, Debye temperature, Einstein temperature, the electron-phonon constant
bilayer nickelate superconductor, microcrystalline stain, high-pressure superconductivity, Debye temperature
cuprate superconductors, coated conductors, critical current density, magnetisation Jc, transport Jc
room-temperature superconductivity, ambient pressure superconductivity, Debye temperature, electron-phonon coupling constant, Einstein temperature
magnetic properties of superconductors, magnetization curve, data fit/simulation.
superconducting hydrides, magnetic flux trap in superconductors.
Ruddlesden-Popper nickelates, upper critical field, superconducting energy gap, superconducting coherence length
nickelate superconductors, two-band superconductivity, self-field critical current density, upper critical field
twisted Josephson junctions, Bi-based HTS cuprates, d-wave pairing symmetry, c-axis critical currents in HTS cuprates
severe plastic deformation, high pressure torsion, microstructure formation, hardness, iron
Bose-Einstein condensate, high-pressure superconductivity
hydrides, Debye temperature, Fermi temperature, nonadiabaticity.
niobium, vanadium, high pressure torsion, structure, hardness, piecewise modeling.