Quantum magnetic excitations from stripes in copper oxide superconductors

Tranquada, J. M.; Woo, H.; Perring, T. G.; Goka, H.; Gu, G. D.; Xu, G.; Fujita, M.; Yamada, K.

Quantum magnetic excitations from stripes in copper oxide superconductors

J. M. Tranquada (), H. Woo, T. G. Perring, H. Goka, G. D. Gu, G. Xu, M. Fujita and K. Yamada
Additional contact information
J. M. Tranquada: Brookhaven National Laboratory
H. Woo: Brookhaven National Laboratory
T. G. Perring: ISIS Facility, Rutherford Appleton Laboratory
H. Goka: Tohoku University
G. D. Gu: Brookhaven National Laboratory
G. Xu: Brookhaven National Laboratory
M. Fujita: Tohoku University
K. Yamada: Tohoku University

Nature, 2004, vol. 429, issue 6991, 534-538

Abstract: Abstract In the copper oxide parent compounds of the high-transition-temperature superconductors1 the valence electrons are localized—one per copper site—by strong intra-atomic Coulomb repulsion. A symptom of this localization is antiferromagnetism2, where the spins of localized electrons alternate between up and down. Superconductivity appears when mobile ‘holes’ are doped into this insulating state, and it coexists with antiferromagnetic fluctuations3. In one approach to describing the coexistence, the holes are believed to self-organize into ‘stripes’ that alternate with antiferromagnetic (insulating) regions within copper oxide planes4, which would necessitate an unconventional mechanism of superconductivity5. There is an apparent problem with this picture, however: measurements of magnetic excitations in superconducting YBa2Cu3O6+x near optimum doping6 are incompatible with the naive expectations7,8 for a material with stripes. Here we report neutron scattering measurements on stripe-ordered La1.875Ba0.125CuO4. We show that the measured excitations are, surprisingly, quite similar to those in YBa2Cu3O6+x (refs 9, 10) (that is, the predicted spectrum of magnetic excitations7,8 is wrong). We find instead that the observed spectrum can be understood within a stripe model by taking account of quantum excitations. Our results support the concept that stripe correlations are essential to high-transition-temperature superconductivity11.

Date: 2004
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DOI: 10.1038/nature02574

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