Determination of the superconducting gap in near optimally doped Bi2Sr2-xLaxCuO6+δ (x ~ 0.4) from low-temperature specific heat

Abstract

Low-temperature specific heat of the monolayer high-Tc superconductor Bi2Sr2-xLaxCuO6+δ has been measured close to the optimal doping point (x ~ 0.4) in different magnetic fields. The identification of both a T2 term in zero field and a H dependence of the specific heat in fields is shown to follow the theoretical prediction for d-wave pairing, which enables us to extract the slope of the superconducting gap in the vicinity of the nodes (v, which is proportional to the superconducting gap 0 at the antinodes according to the standard dx2-y2 gap function). The v or 0 (~ 12 meV) determined from this bulk measurement shows close agreement with that obtained from spectroscopy or tunneling measurements, which confirms the simple d-wave form of the superconducting gap.