Neutron Scattering from Magnetic Excitations in Bi2 Sr2 Ca2 O8+delta

Abstract

Many physical properties of the copper oxide high temperature superconductors appear to defy the conventional (one-electron) theory of metals, and the development of new theories incorporating strong electron correlations is currently at the forefront of condensed matter physics. Inelastic neutron scattering provides incisive information about collective magnetic excitations that is required to guide this effort. Such measurements have thus far proven possible for only two of the many families of high temperature superconductors, La2-x Srx CuO4 and YBa2 Cu3 O6+x,because suitably large single crystals of other copper oxide compounds could not be grown. While the magnetic spectra of both materials bear certain similarities, there are also pronounced differences that have hampered a unified description of the spin dynamics in the copper oxides. In particular, a sharp resonant spin excitation dominates the spectrum in the superconducting state of YBa2 Cu3 O6+x, but is not found in La2-x Srx CuO4. Here we report the discovery of a magnetic resonance peak in the superconducting state of a different copper oxide system, Bi2 Sr2 Ca Cu2 O8+δ, made possible by the synthesis of a sizable single crystal and modern neutron optics. This provides evidence of the generality of this unusual phenomenon among the copper oxides and greatly extends the empirical basis for its theoretical description.

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