Abstract
Recently, ammonia-thermal reaction has been used for molecular intercalation in layered FeSe, resulting a new Lix(NH3)yFe2Se2 superconductor with Tc ~ 45 K. Here, we have used temperature dependent extended x-ray absorption fine structure (EXAFS) to investigate local atomic displacements in single crystals of this new superconductor. Using polarized EXAFS at Fe K-edge we have obtained direct information on the local Fe-Se and Fe-Fe bondlengths and corresponding mean square relative displacements (MSRD). We find that the Se-height in the intercalated system is lower than the one in the binary FeSe, suggesting compressed FeSe4 tetrahedron in the title system. Incidentally, there is hardly any effect of the intercalation on the bondlengths characteristics, revealed by the Einstein temperatures, that are similar to those found in the binary FeSe. Therefore, the molecular intercalation induces an effective compression and decouples the FeSe slabs. Furthermore, the results reveal an anomalous change in the atomic correlations across Tc, appearing as a clear decrease in the MSRD, indicating hardening of the local lattice mode. Similar response of the local lattice has been found in other families of superconductors, e.g., A15-type and cuprates superconductors. This observation suggests that local atomic correlations should have some direct correlation with the superconductivity.
Highlights
Depending on the thickness of the intercalated spacer layer[6,7,8,9,10,11,12,13]
We have addressed some of these issues and studied the local structure of ammonia intercalated Lix(NH3)y Fe2Se2 by means of temperature-dependent x-ray absorption spectroscopy
We have exploited polarization dependence of the absorption cross-section to have direct access to the near-neighbour distances in single crystal samples of Lix(NH3)y Fe2Se2 using extended x-ray absorption fine structure (EXAFS) measurements performed at the Fe K-edge
Summary
Single crystal samples of Lix(NH3)y Fe2Se2 were synthesized using liquid ammonia as a solvent. Several single crystals of FeSe and dopant metal in the appropriate ratio were placed in a glass tube. The liquid NH3 was removed by heating and dynamically pumping the glass tube, obtaining metal-doped single crystals. The samples were characterized by in-house X-ray diffraction (XRD) from the basal plane of single crystals of parent FeSe and Lix(NH3)y Fe2Se2 using a RIGAKU Ultima IV at room temperature with Co source (λ = 1.79 Å). The absorption experiments were carried out in the normal incidence geometry exploiting three ionization chambers mounted in series to measure the energy-dependent absorption coefficient of the sample and a reference Fe-foil at the same time. Several scans were collected for any given temperature to ensure reproducibility and improve the signal-to-noise ratio
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