Characterization of Spin-Orbit Effects in Superconductors In5Bi3 and In5Sb3
Abstract
We report a first principles computational analysis of two phonon-mediated superconductors, In5Bi3 and In5Sb3. We show that spin-orbit coupling leads to splitting of electron bands around the Fermi energy, resulting in a suppression of the electronic density of states in both compounds. In In5Bi3, the spin-orbit coupling is essential for the dynamical stability of the experimentally observed phase, and the calculated superconducting critical temperature is in close agreement with measurements. In In5Sb3, the spin-orbit coupling significantly reduces the calculated superconducting critical temperature compared to calculations neglecting relativistic effects. Our work emphasises the subtle interplay between spin-orbit interactions and phonon-mediated superconductivity.
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