Bulletin of the American Physical Society
2024 APS March Meeting
Monday–Friday, March 4–8, 2024; Minneapolis & Virtual
Session T01: Nematicity, Correlations and Pairing
11:30 AM–1:18 PM,
Thursday, March 7, 2024
Room: L100A
Sponsoring
Unit:
DMP
Chair: Qing-Ping Ding, Ames National Laboratory
Abstract: T01.00009 : Synthesis and physical properties of the Li1-xTMxFeAs, TM=Cu, Mn*
1:06 PM–1:18 PM
Presenter:
MING LIU
(moscow state university)
Authors:
MING LIU
(moscow state university)
Morozov I V
(Russia)
Collaboration:
MIV448
Full-profile analysis of diffraction data by the Rietveld method confirmed the partial replacement of lithium by TM cations. Along with the main phase isostructural to LiFeAs (P4/nmm), the impurity phase FeAs is present in the samples. Increase of the degree of substitution of lithium by TM is accompanied by a decrease of the unit cell parameters, which corresponds to decreasing of the interlayer distance.
The study of the isothermal magnetization curves and the T-dependence of the magnetic susceptibility curves for Li1-xCuxFeAs samples (x≤0.3) showed that they exhibit paramagnetic properties. Treatment of the c(T) curves based on the Curie-Weiss model allows us to conclude that the samples contain only diamagnetic Cu+ cations. Approximation of the magnetization curves by a Langevin function allowed us to determine the effective magnetic moments (4.3 - 5.5 μB) and the concentration of the magnetic centers (≈0.3%). Thus, the magnetic properties of Li1-xCuxFeAs (x≤0.3) samples can be described within the model of non-interacting magnetic moments, which may be impurity iron cations in the lithium positions.
The features of the electronic and magnetic state of iron cations of the Li1-xTMxFeAs were studied by Mössbauer spectroscopy on 57Fe. The main spectral component over the entire temperature range is a slightly enlarged broadened, quadrupole doublet, which corresponds to the localisation of iron in a tetrahedral environment of arsenic atoms within conducting layers. In addition to the main component, the second signal is present in the spectra, which corresponds to the FeAs impurity. In contrast to TM=Cu, Li1-xMnxFeAs samples exhibited complex magnetic behavior and spontaneous magnetization observed up to room temperature.
*Russian Foundation for Basic Research (ref. № 15-03-99628).
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