Quasi-one-dimensional spin excitations in the iron pnictide NaFe0.53Cu0.47As

Abstract

Spectroscopic measurements in model one-dimensional (1D) correlated systems offer insights for understanding their two-dimensional counterparts, which include the cuprate and iron pnictide/chalcogenide superconductors. A major challenge is the identification of such correlated systems with dominantly 1D physics. In this work, inelastic neutron scattering measurements on NaFe0.53Cu0.47As single crystal directly reveal quasi-1D spin excitations, resulting from atomic order that lead to magnetic Fe and nonmagnetic Cu chains. The dominant exchange interaction is antiferromagnetic along the chain (SJ ≈90.1(3)~meV), whereas the inter-chain couplings are much weaker (SJ ≈-2.4(1)~meV and SJ c≈0.15(5)~meV). The quasi-1D spin excitations in NaFe0.53Cu0.47As stem from both the N\'eel and stripe vectors, with N\'eel excitations sensitive to Fe impurities on the Cu site. The spin excitations in quasi-1D NaFe0.53Cu0.47As and quasi-2D FeSe exhibit a striking resemblance, suggesting a common origin for their coexistent stripe and N\'eel excitations. Our findings demonstrate magnetic dilution in NaFeAs leads to dimension reduction of its magnetic degree of freedom, presenting a strategy for discovering low-dimensional quantum materials.