Magnetic response of noncentrosymmetric superconductor : Effect of double-gap and spin–orbit interaction

We present ab initio perturbation calculations of the electronic spin᎐orbit interaction contributions to indirect spin᎐spin coupling tensors using linear and quadratic response methods. The effects of both the Fermi-contact and the spin᎐dipole interactions as well as the one-and two-electron spin᎐or

We devise a nucleon-nucleon interaction V, + XV,, + y V, to study the effects of the spinorbit and tensor interactions by varying x and y. For negative parity lp-lh states in 160, we find that in a TDA calculation, the weighted sum of the eigenenergies CJ(2J+ 1) L,E,(J, T) is zero for a pure two-bod

## Abstract In accounting for the magnetic properties of discrete and extended compounds with unpaired spins, it is crucial to know the nature of their ground and low‐lying excited states. In this review we surveyed quantum mechanical descriptions on how these states are affected by spin‐orbit coup

In the latest twenty years, the search for a source of spinpolarized electrons is an area of current active research [1][2][3][4][5][6][7], due to the feasibility of spin polarization and spin filtering within a two-dimensional electron gas which was proposed by Papp and Peeters [8,9] based on the c