Berlin 2024 – wissenschaftliches Programm

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TT: Fachverband Tiefe Temperaturen

TT 68: Superconductivity: Properties and Electronic Structure

TT 68.1: Vortrag

Donnerstag, 21. März 2024, 09:30–09:45, H 3010

Possible unconventional vortex lattice in LiFeAs single crystals by µSR — •G. Lamura¹, T. Shiroka^2,3, T. Winyard⁴, M. Speight⁵, J. Quintanilla⁶, P. Gentile⁷, F. Anger⁸, and S. Wurmehl⁸ — ¹Cnr-Spin, Genova, IT — ²ETH, Zurich, CH — ³Paul Scherrer Institut, CH — ⁴University of Edinburgh, UK — ⁵University of Leeds, UK — ⁶University of Kent, Canterbury, UK — ⁷Cnr-Spin, Salerno, IT — ⁸IFW, Dresden, DE

Muon spectroscopy (µSR) is able to study the vortex lattice (VL) of type II superconductors: positive muons implanted in interstitial sites probe different magnetic local fields B_loc depending on the relative position of Abrikosov vortices: the Fourier Transform of the measured time-dependent asymmetry FT { A(t) } ∝ n(B_loc), the local field distribution. A skyrmion-vortex chains model was recently proposed to distinguish nematic superconductors [1]. It consists of stripes of skyrmions (spatially separated half-quantum vortices) parameterized by the separation between the chains and the inter-skyrmion separation along the same chain: the resulting n(B_loc) presents a double-peak instead of the one-peak structure of the usual Abrikosov VL. Here we show our experimental results by µSR on a high-purity LiFeAs single crystal (T_c=17K) [2]. We likely found the evidence of such an unconventional mixed state: FT { A(t) } data at 2 K shows a small splitting of the main superconducting peak up to 7 K. This could confirm the nematicity of superconductivity in LiFeAs, in agreement with previous ARPES results [3].

[1] Phys. Rev. Lett. 130 (2023) 226002.

[2] J. Cryst. Growth 627 (2024) 127473.

[3] Phys. Rev. B 102 (2020) 184502.

Keywords: Nematic Superconductivity; Iron Based Superconductivity; Skyrmions; Stripes; Abrikosov Vortices