Spin–orbit coupling is a quantum effect that can give rise to exotic electronic and magnetic
states in the compounds of the 4d and 5d transition metals. Exploratory synthesis, chemical …

In solid-state materials, crystal structure is regarded as one of the major factors that
determines the physical properties, including superconductivity. Materials based on Kagome …

The area of superconductivity has got more fascinating after the discovery of
superconductivity in noncentrosymmetric crystal structures. Experimental evidence for …

In recent years, the two-dimensional (2D) orthorhombic SiP2 flake has been peeled off
successfully by micromechanical exfoliation and it exhibits an excellent performance in …

We report pressure-driven evolution of the superconducting transition temperature (T c) and
upper critical field B c 2 (0) of strong-coupling superconductor Ti 4 Ir 2 O that possesses an …

The classical Bardeen–Cooper–Schrieffer and Eliashberg theories of the electron–phonon-
mediated superconductivity are based on the Migdal theorem, which is an assumption that …

Ti2Ni and the related η-carbide structure are known to exhibit various intriguing physical
properties. The Ti2Ni structure with the cubic space group Fd 3̅ m is surprisingly complex …

TaRh2B2 and NbRh2B2 compounds exhibit noncentrosymmetric superconductivity with a
chiral structure. Density functional theory-based ab-initio calculations have been executed to …

TaRh2B2 and NbRh2B2 possess a chiral structure with noncentrosymmetric
superconductivity. To explore their fascinating physics and physical properties, an ab-initio …

We report the discovery of a new noncentrosymmetric superconductor, W4IrC1− x, which
adopts a cubic β-Mn type structure for x in the range of 0 to 0.2. This compound is stabilized …