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Pressure-induced quantum critical point in the heavily hydrogen-doped iron-based superconductor LaFeAsO

M. Takeuchi, N. Fujiwara, T. Kuwayama, S. Nakagawa, S. Iimura, S. Matsuishi, Y. Yamakawa, H. Kontani, and H. Hosono, Phys. Rev. B 99, 174517 (2019).

An iron-based superconductor LaFeAsO1−xHx(0≤x≤0.6) undergoes two antiferromagnetic (AF) phases upon H doping. We investigated the second AF phase (x=0.6) using NMR techniques under pressure. At pressures up to 2 GPa, the ground state is a spin-density-wave state with a large gap; however, the gap closes at 4.0 GPa, suggesting a pressure-induced quantum critical point. Interestingly, the gapped excitation coexists with gapless magnetic fluctuations at pressures between 2 and 4 GPa. This coexistence is attributable to the lift up of the dxy orbital to the Fermi level, a Lifshitz transition under pressure.