Inherent spin density wave instability by vortices in superconductors with strong Pauli effects

Abstract

A novel spin density wave (SDW) instability mechanism enhanced by vortices under fields is proposed to explain the high field and low temperature (HL) phase in CeCoIn5. In the vortex state the strong Pauli effect and the nodal gap conspire to enhance the momentum resolved spectral weight exclusively along the nodal direction over the normal value, providing a favorable nesting condition for SDW with Q=(2kF, 2kF, 0.5) only under high field (H). Observed mysteries of the field-induced SDW confined within Hc2 are understood consistently, such facts that Q is directed to the nodal direction independent of H, SDW diminishes under tilting field from the ab plane, and the SDW transition line in (H,T) has a positive slope.