Zeeman and orbital effects of an in-plane magnetic field in cuprate superconductors.

We discuss the effects of a magnetic field applied parallel to the Cu–O (ab) plane of the high T[sub c] cuprate superconductors. After briefly reviewing the Zeeman effect of the field, we study the orbital effects, using the Lawrence–Doniach model for layered superconductors as a guide to the physics. We argue that the orbital effect is qualitatively different for in-plane and interlayer mechanisms for superconductivity. In the case of in-plane mechanisms, interlayer couplings may be modeled as a weak interlayer Josephson coupling, whose effects disappear as H→∞; in this case Zeeman dominates the effect of the field. In contrast, in the interlayer mechanism the Josephson coupling is the driving force of superconductivity, and we argue that the in-plane field suppresses superconductivity and provides an upper bound for H[sub c2] which we estimate very crudely. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]