Role of Nematic Fluctuations on Superconductivity in FeSe0.47Te0.53 Revealed by NMR under Pressure

Abstract

The relationship between antiferromagnetic (AFM) spin fluctuations (SF), nematic fluctuations, and superconductivity (SC) has been central to understanding the pairing mechanism in iron-based superconductors (IBSCs). Iron chalcogenides, which hold the simplest crystal structure in IBSCs, provide a good platform to investigate the relationship. Here, we report 77Se and 125Te nuclear magnetic resonance studies of FeSe0.47Te0.53, which is located close to a nematic quantum critical point (QCP), under pressures up to 1.35 GPa. Both the superconducting critical temperature and AFMSF were found to be enhanced under pressure, which suggests a correlation between SC and AFMSF in FeSe0.47Te0.53. However, the contribution of AFMSF to SC in FeSe0.47Te0.53 was found to be much less compared to that in FeSe1-xSx, suggesting that nematic fluctuations play a dominant role in the SC in FeSe1-xTex around the nematic QCP.