| Quantum phase transitions in magnetism and superconductivity: emergent spin topology seen with neutrons (2007) | |||||||||
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| Magnetic spins and charges interact strongly in high-temperature superconductors. New physics emerges as layers of copper oxide are tuned towards the boundary of the superconducting phase. As the pseudogap increases the characteristic spin excitation energy decreases. We show that our well-annealed YBa2Cu3O6+x (YBCO6+x) single crystals are orthorhombic and superconducting but not antiferromagnetically ordered. Near the critical concentration for superconductivity for x = 0.35 the spins fluctuate on two energy scales, one a relaxational spin response at ~2 meV and the other a slow central mode that is resolution-limited in energy (. Comment: Review of spin response in cuprate superconductors YBCO underdoped to suppress Tc based on talk at International Conference on Neutron Scattering, Sydney, Australia, Nov 27-Dec 2, 2005 6 pages 6 figures | |||||||||
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