No mixing of superconductivity and antiferromagnetism in a high-temperature superconductor
I. Bozovic (),
G. Logvenov,
M. A. J. Verhoeven,
P. Caputo,
E. Goldobin and
T. H. Geballe
Additional contact information
I. Bozovic: Oxxel GmbH, Technologiepark Universitaet
G. Logvenov: Oxxel GmbH, Technologiepark Universitaet
M. A. J. Verhoeven: Oxxel GmbH, Technologiepark Universitaet
P. Caputo: Oxxel GmbH, Technologiepark Universitaet
E. Goldobin: Oxxel GmbH, Technologiepark Universitaet
T. H. Geballe: Stanford University
Nature, 2003, vol. 422, issue 6934, 873-875
Abstract:
Abstract There is still no universally accepted theory of high-temperature superconductivity. Most models assume that doping creates ‘holes’ in the valence band of an insulating, antiferromagnetic ‘parent’ compound, and that antiferromagnetism and high-temperature superconductivity are intimately related1,2,3,4,5,6,7,8. If their respective energies are nearly equal, strong antiferromagnetic fluctuations (temporally and spatially restricted antiferromagnetic domains) would be expected in the superconductive phase, and superconducting fluctuations would be expected in the antiferromagnetic phase7; the two states should ‘mix’ over an extended length scale8. Here we report that one-unit-cell-thick antiferromagnetic La2CuO4 barrier layers remain highly insulating and completely block a supercurrent; the characteristic decay length is 1 Å, indicating that the two phases do not mix. We likewise found that isolated one-unit-cell-thick layers of La1.85Sr0.15CuO4 remain superconducting. The latter further implies that, on doping, new electronic states are created near the middle of the bandgap. These two findings are in conflict with most proposed models, with a few notable exceptions that include postulated spin–charge separation2.
Date: 2003
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DOI: 10.1038/nature01544
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