Author: ["J. R. Kirtley","C. C. Tsuei","Ariando","C. J. M. Verwijs","S. Harkema","H. Hilgenkamp"]
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Abstract
Understanding the nature of the ground state and its low-lying excitations in the copper oxide superconductors is a prerequisite for determining the origin of high-temperature superconductivity. A superconducting order parameter (that is, the energy gap) with a predominantly symmetry is well-established. However, various deviations from a pure d-wave pair state, such as the possibility of Cooper pairing with broken time-reversal symmetry or an admixed +s pair state, have been theoretically predicted and actively sought in numerous experimental studies. Here, we present an angle-resolved phase-sensitive technique for accurately determining the in-plane pairing symmetry, and demonstrate this technique in optimally doped YBa2Cu3O7−δ. We find that the gap along the b-axis (Cu–O chain) direction is at least 20% larger than that along the a-axis direction, and that any imaginary i dx y, is or ip component must be smaller than a few per cent of the component of the gap.
Cite this article
Kirtley, J., Tsuei, C., Ariando et al. Angle-resolved phase-sensitive determination of the in-plane gap symmetry in YBa2Cu3O7−δ. Nature Phys 2, 190–194 (2006). https://doi.org/10.1038/nphys215