Interplay between vortex dynamics and superconducting gap structure in layered organic superconductors

Abstract

Layered organic superconductors motivate intense investigations because they provide var-ious unexpected issues associated with their low dimensionality and the strong electron correlation. Since layered organic superconductors possess simple Fermi surface geometry and they often share similarities to the high temperature oxide superconductors and heavy fermion compounds, research on layered organic superconductors is suitable for understanding the essence and nature of strongly correlated electron systems. In strongly correlated electron systems, one of the central problems concerning the superconducting (SC) state is the symmetry of the SC gap, which is closely related to the paring mechanism. Thus, experimental determination of the SC gap structure is of essential im-portance. In this review, we present the experimental results for the in-plane angular variation of the flux-flow resistance in layered organic superconductors K-(ET)2 Cu(NCS)2, β”-(ET)2 SF5 CH2 CF2 SO3, and λ-(BETS)2 GaCl4. The interplay between the vortex dynamics and nodal structures is discussed for these superconductors.