Anomalous field evolution of the mixed-state linewidth in the second superconducting dome of LaFeAsO1-xMx (M= F,H)
Abstract
We report a transverse-field muon-spin rotation/relaxation (μSR) study of the internal-field distribution in the mixed state of LaFeAsO0.89F0.11 and LaFeAsO0.75H0.25, representative of the first (SC1) and second (SC2) superconducting domes of the LaFeAsO1-xMx (M= F,H) family, respectively. Below the superconducting transition temperature T c, the linewidth of the internal-field distribution increases in both samples, indicating the formation of a vortex lattice. Above T c, the linewidth remains field dependent and increases approximately linearly with field, consistent with broadening of the powder spectrum caused by an anisotropic Knight shift. After subtraction of this normal-state contribution, the superconducting linewidth σ sc exhibits qualitatively different field dependences in the two samples. At 4K, the SC1 (x F=0.11) sample shows the expected monotonic decrease with increasing field, whereas the SC2 (x H=0.25) sample develops a pronounced local maximum near 3T. A contour representation of σ sc(T,H) further reveals a ridge of local maxima whose field position, Hσ,(T), shifts to lower fields upon warming and disappears near T c. The anomalous field evolution observed in the SC2 sample is consistent with an additional field-induced contribution associated with enhanced Pauli-paramagnetic effects, highlighting the distinct electronic character of the two superconducting domes.
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