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" Surprising loss of three-dimensionality in low-energy spin correlations on approaching superconductivity in Fe1+yTe1-xSex "
Xu, ZSchneeloch, JAWen, JWinn, BLGranroth, GEZhao, YGu, GZaliznyak, ITranquada, JMBirgeneau, RJXu, G
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AL
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900966
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LA0x54565j
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Surprising loss of three-dimensionality in low-energy spin correlations on approaching superconductivity in Fe1+yTe1-xSex [Article]\ Xu, ZSchneeloch, JAWen, JWinn, BLGranroth, GEZhao, YGu, GZaliznyak, ITranquada, JMBirgeneau, RJXu, G
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2017
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UC Berkeley
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© 2017 American Physical Society. We report inelastic neutron scattering measurements of low-energy (ω10 meV) magnetic excitations in the "11" system Fe1+yTe1-xSex. The spin correlations are two-dimensional (2D) in the superconducting samples at low temperature, but appear much more three-dimensional (3D) when the temperature rises well above Tc∼15 K, with a clear increase of the (dynamic) spin correlation length perpendicular to the Fe planes. This behavior is extremely unusual; typically, the suppression of thermal fluctuations at low temperature would favor the enhancement of 3D correlations, or even ordering, and the reversion to 2D cannot be naturally explained when only the spin degree of freedom is considered. Our results suggest that the low temperature physics in the 11 system, in particular the evolution of low-energy spin excitations towards superconducting pairing, intrinsically involves changes in orbital correlations.
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