Universal Dispersive Excitations in the High-Temperature Superconductors
Abstract
High-resolution neutron scattering experiments on optimally doped La2-xSrxCuO4 have been performed which reveal that the magnetic excitations are dispersive. The dispersion is found to be the same as in the YBa2Cu3O6+x family, and is quantitatively related to that observed with charge sensitive probes. The excitations are also found to broaden rapidly with increasing energy, forming a continuum at higher energy, and bear a remarkable resemblance to multi-particle excitations observed in low-dimensional antiferromagnets and some magnetic metals. The magnetic correlations are two dimensional, and so rule out the simplest scenarios where the copper oxide planes are subdivided into weakly interacting one-dimensional magnets.
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