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Toward the Mott state with Magnetic Cluster Formation in Heavily Cu-Doped NaFe_(1-x)Cu_(x)As

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arxiv 1903.12280 v2 pith:AYKVUXKX submitted 2019-03-28 cond-mat.str-el

Toward the Mott state with Magnetic Cluster Formation in Heavily Cu-Doped NaFe_(1-x)Cu_(x)As

classification cond-mat.str-el
keywords magneticstatechangeconcentrationdopantformationmeasurementsmott
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Recent neutron scattering measurements indicate that NaFe$_{1-x}$Cu$_{x}$As forms an antiferromagnetic stripe phase near $x\approx 0.5$ in a Mott insulating state. This copper concentration is well in excess of that required for superconductivity, $x < 0.04$. We have investigated the development of magnetism in this compound using $^{23}$Na nuclear magnetic resonance (NMR) spectra and spin-lattice relaxation measurements performed on single crystals ($x$ = 0.13, 0.18, 0.24, and 0.39). We find multiple inequivalent Na sites, each of which is associated with a different number of nearest neighbor Fe sites occupied by a Cu dopant. We show that the distribution of Cu substituted for Fe is random in-plane for low concentrations ($x = 0.13$ and 0.18), but deviates from this with increasing Cu doping. As is characteristic of many pnictide compounds, there is a spin pseudo gap that increases in magnitude with dopant concentration. This is correlated with a corresponding increase in orbital NMR frequency shift indicating a change in valence from Cu$^{2+}$ to a Cu$^{1+}$ state as $x$ exceeds 0.18, concomitant with the change of Fe$^{2+}$ to Fe$^{3+}$ resulting in the formation of magnetic clusters. However, for $x\leq 0.39$ there is no evidence of long-range static magnetic order.

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