Emergence of a Novel Frozen Magnetic State in Heavily Over-Doped La_{2-x}Sr_{x}CuO_{4}

Jeff Sonier; Christina Kaiser; Vighen Pacradouni; Seyed-Ahmad Sabok-Sayr; Chris Cochrane; Doug MacLaughlin; Seiki Komiya; Nigel Hussey

Emergence of a Novel Frozen Magnetic State in Heavily Over-Doped La$_{2-x}$Sr$_{x}$CuO$_{4}$

ORAL

Abstract

It has been proposed that the termination of superconductivity in heavily overdoped copper oxides is caused by the emergence of competing ferromagnetism. We report on a direct examination of this scenario in overdoped La$_{2-x}$Sr$_{x}$CuO$_{4}$ using the technique of muon spin relaxation. We detect the onset of static magnetic moments of electronic origin beyond the superconducting ``dome'', where antiferromagnetic correlations are absent. The magnetism does not exist in a commensurate long-range ordered state, but instead appears as a dilute concentration of static magnetic moments. The results are qualitatively consistent with electronic band calculations that predict weak ferromagnetic order about Sr-rich clusters.

^*This work was supported by NSERC, the Canadian Institute for Advanced Research, and the Engineering and Physical Sciences Research Council of the United Kingdom.

March 17, 2010, 3:54 PM – March 17, 2010, 4:06 PM

Authors

Jeff Sonier
- Department of Physics, Simon Fraser University
Christina Kaiser
- Simon Fraser University
- Department of Physics, Simon Fraser University
Vighen Pacradouni
- Simon Fraser University
- Department of Physics, Simon Fraser University
Seyed-Ahmad Sabok-Sayr
- Department of Physics, Northern Illinois University
Chris Cochrane
- Department of Physics, Queens University
Doug MacLaughlin
- Department of Physics and Astronomy
Seiki Komiya
- Central Research Institute of Electric Power Industry
Nigel Hussey
- University of Bristol
- H. H. Wills Physics Laboratory, University of Bristol